System and method for classification of patients

ABSTRACT

A system (100) for classifying a biological test sample, including a database (112) populated with reference expression data. The reference expression data includes expression levels of a plurality of molecules (polynucleotides or polypeptides), including a set of marker molecules, in a plurality of reference samples. Each reference sample has a pre-assigned value for each of one or more clinically significant variables. The system includes at least one processor (110) and at least one storage medium containing program instructions for execution by said processor (110). The program instructions cause the processor to accept (122) input expression data including a test vector of expression levels of the marker molecules in the biological test sample; and pass the input expression data to one or more analysis programs (130a, 130b, 135). The analysis programs include at least one statistical classification program (135) for assigning a value of at least one of said clinically significant variables to the test sample.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a Continuation of U.S. application Ser. No. 14/549,069, filed Nov. 20, 2014, which is a Continuation of U.S. application Ser. No. 13/498,965, which is the U.S. National Stage of PCT/AU2010/001286, filed Sep. 30, 2010, which claims the benefit of U.S. Provisional Application No. 61/247,802, filed Oct. 1, 2009.

FIELD OF THE INVENTION

The present invention relates to classification of patients on the basis of expression of multiple biological markers. It is particularly suited to expression data from microarrays and other high-throughput platforms, although it will be appreciated that the invention may have wider applicability.

BACKGROUND TO THE INVENTION

It has long been recognised that diagnosis and treatment of disease on the basis of epidemiologic studies may not be ideal, especially when the disease is a complex one having multiple causative factors and many subtypes with possibly wildly varying outcomes for the patient. This has recently led to an increased emphasis on so-called “personalised medicine”, whereby specific characteristics of the individual are taken info account when providing care.

An important development in the move towards personalised care has been the ability to identify molecular markers which are associated with a particular disease state or which are predictive of the individual's response to a particular treatment.

For example, in relation to breast cancer, the estrogen receptor (ER) or HER2/neu (ErbB-2) status of a tumour can be used in determining a patient's suitability for therapies that target these molecules in the tumor cells. These molecular markers are examples of “companion diagnostics” which are used in conjunction with traditional tests such as histological status in order to guide treatment regimes.

In cancer cases where a tumour has metastasized, it is important to determine the tissue of origin of the tumour. The current diagnostic standard in such cases includes imaging, serum tests and immunohistochemistry (INC) using one or more of a panel of known antibodies of different tumour specificity (Pavlidis et al, Eur J Cancer 39, p 1990 (2003); Burton et al, JAMA 280, p 1245 (1998); Varadhachary et al, Cancer 100, p 1776 (2004)). For approximately 3-5% of all cases, known as Cancer of Unknown Primary (CUP), these conventional approaches do not reach a definitive diagnosis, although some may eventually be solved with further, more extensive investigations (Horlings et al, J Clin Oncol 26, p 4435 (2008); Raab et al, Cancer 104, p 2205 (2005)). The range of tests able to be performed can depend not only on an individual patient's ability to tolerate potentially invasive, costly and time consuming diagnostic procedures, but also on the diagnostic tools at the clinician's disposal, which may vary between hospitals and countries.

To date, most diagnostic protocols are primarily reliant on microscopy, single gene or protein biomarkers (IHC) and imaging techniques such as MRI and PET Scan. Unfortunately, these techniques all have limitations and may not on their own provide adequate information to diagnose widely metastasized tumours, poorly differentiated malignancies, rare subtypes or unusual presentations of common cancers.

It has been hypothesized that the information gained from gene expression profiling can be used as a companion diagnostic to the above protocols, helping to confirm or refine the predicted primary origin in a focused and efficient manner.

Since the advent of various robotic and high throughput genomic technologies, including RT-PCR and microarray, several groups (van Laar et al, Int J Cancer 125, p 1390 (2009); Rosenfeld et al, Nature Biotechnology 26, p 462 (2008); Tothill et al, Cancer Res 65, p 4031 (2005); Bloom et al, Am J Pathol 164, p 9 (2004); Monzon et al, J Clin Oncol 27, p 2503 (2009); Ramaswamy et al, PNAS 98, 15149 (2001)) have investigated the use of gene expression data to predict the primary origin of a metastatic tumor. Prediction accuracies in the literature range from 78% to 89%.

A number of gene expression based, commercial diagnostic services have arisen since the sequencing of the human genome, offering a range of personalized diagnostic and prognostic assays. These services represent a significant advance in patient access to personalized medicine. However the requirement of shipping fresh or preserved human tissue to an interstate or international reference laboratory has the potential to expose sensitive biological molecules to adverse weather conditions and logistical delays. In some parts of the world it may also be prohibitively expensive to ship human tissue to a reference laboratory in a timely fashion, thus limiting access to this new technology.

Most current commercially available gene-expression based cancer tests use a proprietary “diagnostic” microarray or PCR-based assay (van Lear et al; Rosenfeld et al; Dumur et al, J Mol Diagn 10, p 67 (2008)). Such arrays allow assaying of a small set of genes chosen for a particular purpose and are custom manufactured for that purpose. Because of the limited set of genes that are quantified by these existing assays, the data generated generally cannot be used for multiple diagnostic or prognostic analyses if a different set of genes is required. Furthermore, whatever data is generated, it is generally not accessible to the clinician requesting the test should it be desired to conduct further investigations or compile a custom database of gene expression data for research purposes.

In view of the above deficiencies, it is desirable to provide a more flexible and efficient method and system for diagnosis and prognosis of a patient based on expression of multiple biological markers.

SUMMARY OF THE INVENTION

Accordingly, in a first aspect, the present invention provides a system for classifying a biological test sample, including:

a database populated with reference expression data, the reference expression data including expression levels of a plurality of molecules (polynucleotides or polypeptides) in a plurality of reference samples, the molecules including a set of marker molecules, each reference sample having a pre-assigned value for each of one or more clinically significant variables;

at least one processor; and

at feast one storage medium containing program instructions for execution by said processor, said program instructions causing said processor to execute the steps of:

accepting input expression data, the input expression data including a test vector of expression levels of the marker molecules in the biological test sample; and

passing the input expression data to one or more analysis programs, the analysis programs including at least one statistical classification program which has been trained to distinguish among said pre-assigned values on the basis of that part of the reference data corresponding to expression levels of the marker molecules; and

assigning one of said pre-assigned values to the test sample for at least one of said clinically significant variables using the statistical classification program.

By providing a reference data set with known clinical annotation in a single database in combination with the ability to accept input data from a user of the system, it is possible to have a centralised repository of disease classification which can be used to conduct different diagnostic or prognostic analyses (using different classification programs) with different sets of marker molecules. The system thus provides flexibility in that different tests may be conducted using the same reference data and input data without needing to re-assay the biological test sample.

Preferably, one of said analysis programs includes instructions for assessing the quality of the input expression data. The quality of the input expression data may be at least partly assessed according to the distribution across reference samples of one or more statistics derived from the reference data, the statistics including (for example) background intensity, percentage of molecules above detection threshold, ratio of 3′ expression level to 5′ expression level, slope of RNA degradation curve, normalisation factor, and log (base 10) ratio of mean intensity to mean background intensity.

Providing a quality control module as one of the analysis programs allows the clinician or other user to check that the data, as a whole, fall within acceptable ranges so that low-quality data are not passed to the classifier or classifiers. Use of low-quality data could lead to a diagnosis which inconsistent with other tests which may have been conducted, such as imaging or immunohistochemistry.

One of the classification programs may be a prediction of patient gender. This serves as a further quality check since, for example, if a female patient is predicted as male (on the basis of comparison to the reference data which are stratified according to gender), the fidelity of the data is cast into doubt.

In one embodiment, one of said analysis programs includes instructions for normalising the distribution of the input expression data to be comparable with the distribution of the reference expression data. This can help to increase the likelihood that differences between the input and reference data are due to real biological differences, and not due to mere statistical artifacts or to differences in the laboratory protocols used in generating the two data sets.

In a particularly preferred embodiment, each analysis program is executed on a different one of said processors. This can vastly improve the speed of the analysis.

In another aspect, the present invention provides a method for classifying a biological test sample, including the steps of:

choosing a set of marker molecules;

providing a database populated with reference expression data, the reference expression data including expression levels of a plurality of molecules in a plurality of reference samples, the plurality of molecules including at least the marker molecules, each reference sample having a pre-assigned value for each of one or more clinically significant variables;

accepting input expression data, the input expression data including a test vector of expression levels of the marker molecules in the biological test sample; and

assigning one of said pre-assigned values to the test sample for at least one of said clinically significant variables by passing the test vector to a statistical classification program;

wherein the statistical classification program has been trained to distinguish among said pre-assigned values on the basis of that part of the reference data corresponding to expression levels of the marker molecules.

The database may be in communication with a server computer which is interconnected to at least one client computer by a data network, said server computer being configured to accept the input expression data from the client computer.

Hosting the database on a server and allowing remote upload can improve the speed and efficiency of diagnosis. The clinician, having conducted a biopsy and assayed the sample (either themselves, or via a service laboratory located on site or nearby) to obtain a data file containing the expression levels of the marker molecules, can then simply upload the data file to the server for analysis and receive the test results within a short space of time, possibly within seconds. The server may reside on an internal network to which the clinician has access, or may he located on a wide area network, for example in the form of a Web server. The latter is particularly advantageous as it allows hosting and maintenance of a server accessing a large database of samples in one location, while a clinician located anywhere in the world and having access to relatively modest local resources can upload a data file to obtain a diagnosis based on a comprehensive set of annotated samples, such an analysis otherwise being inaccessible to the clinician.

The or each clinically significant variable may be selected from the group including disease state, disease prognosis, and treatment response. For example, the disease may be cancer, and the clinically significant variables may be organised according to a hierarchy, the levels of which may be selected from the group consisting of anatomical system, tissue type and tumour subtype. In that case, the classification program may include a multi-level classifier which classifies the test sample according to anatomical system, then tissue type, then tumour subtype. This provides a multi-marker, multi-level classification which is analogous to, but independent of, traditional approaches to diagnosis of tumour origin.

The marker molecules may include any combination of 100 or more of the polynucleotides listed in Table 4. We have found that sets of 100 or more of these molecules can provide a classification accuracy of greater than 85% for anatomical system and greater than 75% for tissue type.

In another embodiment, the disease is breast cancer, in which case the clinically significant variable may be risk of recurrence of the disease. The marker molecules in this embodiment may include the polynucleotides listed in Table 5. This is a prognostic, rather than diagnostic, application of the invention.

The invention is further applicable to other contexts in which predictive analysis is desired. For example, if a reference data set including expression levels for cancer patients having undergone one or more of various drug treatments is available, and the patients are annotated according to response to treatment, it would be possible to build and train a classifier to predict response of a patient who had not yet undergone the treatment, based on the expression levels of marker molecules in that patient.

In a particularly preferred embodiment, the reference expression data may be generated using a platform selected from the group including cDNA microarrays, oligonucleotide microarrays, protein microarrays, microRNA (miRNA) arrays, and high-throughput quantitative polymerase chain reaction (qPCR).

Oligonucleotide microarrays are particularly preferred for use in the present invention. If this type of microarray is used, each molecule being assayed is a polynucleotide, which may either be represented by a single probe on the rnicroarray or by multiple probes, each probe having a different nucleotide sequence corresponding to part of the polynucleotide. If multiple probes are present, one of said analysis programs might include instructions for summarising the expression levels of the multiple probes into a single expression level for the polynucleotide.

Oligonucleotide microarrays such as those manufactured by Affymetrix, Inc and marketed under the trademark GeneChip currently represent the vast majority of microarrays in use for gene (and other nucleotide) expression studies. As such, they represent a standardised platform which particularly lends itself to collation of large databases of expression data, for example from cancer patients, in order to provide a basis for diagnostic or prognostic applications such as those provided by the present invention.

Preferably, the input expression data are generated using the same platform as the reference expression data. If the input expression data are generated using a different platform, then the identifier of the molecules in the input data are matched to the identifiers of the molecules in the reference data prior to performing classification, for example on the basis of sequence similarity, or by any other suitable means such as on the basis of GenBank accession number, Refseq or Unigene ID.

Preferably, the statistical classification program includes an algorithm selected from the group including k-nearest neighbours (kNN), linear discriminant analysis, principal components analysis, nearest centroid classification and support vector machines.

In a further aspect of the present invention, there is provided a method of classifying a biological test sample from a cancer patient, including the step of: comparing expression levels of a set of marker molecules in the test sample to expression levels of saki set of marker molecules in a set of reference samples, each member of the set of reference samples having a known clinical annotation, to assign a clinical annotation to the test sample,

wherein the clinical annotation is selected from the group including anatomical system, tissue of origin, tumour subtype and risk of breast cancer recurrence.

In a yet further aspect, the present invention provides a system for classifying a biological test sample from a cancer patient, including:

a database populated with reference data, the reference data including expression levels of a set of marker molecules in a set of reference samples, each member of the set of reference samples having a known clinical annotation;

at least one processor; and

at least one storage medium containing program instructions for execution by said processor, said program instructions causing said processor to execute steps including:

accepting input data in the form of expression levels of the set of marker molecules in the test sample; and

assigning a clinical annotation to the test sample on the basis of the similarity of the input data to the expression levels of the set of marker molecules in the reference data;

wherein the clinical annotation is selected from the group including anatomical system, tissue of origin, tumour subtype and risk of breast cancer recurrence.

The marker molecules may include any combination of 100 or more of the polynucleotides listed in Table 4, or may include the polynucleotides listed in Table 5.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic of a system according to one embodiment of the present invention;

FIG. 2 schematically shows the steps of an exemplary method in accordance with the invention;

FIG. 3 shows a schematic of another embodiment in which user requests are processed in parallel;

FIG. 4 illustrates selection of ranges for a quality control module for use with some embodiments of the present system and method;

FIG. 5 shows the position of samples belonging to a reference data set in multi-dimensional expression data space;

FIG. 6 summarises clinical annotations of reference samples in a reference data set used in one of the Examples;

FIGS. 7(a) and 7(b) show the classification accuracy for a multi-level classifier as used in one of the Examples;

FIGS. 8(a) and 8(b) show cross-validation results for a classification program used in another Example; and

FIGS. 9(a) and 9(b) show independent validation results for the classification program used in the Example of FIGS. 8(a) and 8(b).

DESCRIPTION OF PREFERRED EMBODIMENTS

In the following discussion, embodiments of the invention will be described mostly by reference to examples employing Affymetrix GeneChips. However, it will be understood by the skilled person that the methods and systems described herein may be readily adapted for use with other types of oligonucleotide microarray, or other measurement platforms.

The terms “gene”, “probe set” and “molecule” are used interchangeably for the purposed of the preferred embodiments described herein, but are not to be taken as limiting on the scope of the invention.

Referring to FIGS. 1 and 2, there is shown in schematic form a system 100 and method 200 for classifying a biological test sample. The sample is acquired 220 by a clinician and then treated 230 to extract, fluorescently label and hybridise RNA to microarray 115 according to standard protocols prescribed by the manufacturer of the microarray. Following hybridisation, the surface of the microarray is scanned at high resolution to detect fluorescence from regions of the surface corresponding to different RNA species. In the case of Affymetrix arrays, each scanned “feature” region contains hundreds of thousands of identical oligonucleotides (25 mers), which hybridise to any complementary fluorescently labelled molecules present in the test sample. The fluorescence intensity detected from each feature region is thus correlated with the abundance (expression level) of the complementary sequence in the test sample.

The scanning step results in the production of a raw data file (a CEL file), which contains the intensity values (and other information) for each probe (feature region) on the array. Each probe is one of the 25 mers described above and forms part of one of a multiplicity of “probe sets”. Each probe set contains multiple probes, usually 11 or more for a gene expression microarray. A probe set usually represents a gene or part of a gene. Occasionally, a gene will be represented by more than one probe set.

Once the CEL file is obtained, the user may upload it (step 120 or 240) to server 110.

Accepting Input Data

In the preferred embodiments, the system is implemented using a network including at least one server computer 110, for example a Web server, and at least one client computer. Software running on the Web server can be used to accept the input data file (CEL file) containing the multiple molecule abundance measurements (probe signals) for a particular patient from the client computer over a network connection. This information is stored in the system user's dedicated directory on a file server, with upload filenames, date/time and other details stored in a relational database 112 to allow for later retrieval.

The Web server 110 subsequently allows the user to select individual CEL files for analysis by a list of available diagnostic and prognostic methods, the list being able to be configured to add new methods as they are implemented. Results from the specific analysis requested, in the format of text, numbers and images, are also stored in the relational database 112 and delivered to the user via the Web server 110. All data generated by a particular user is linked to a unique identifier and can be retrieved by the user by logging into to the Web server 110 using a username and password combination.

When an analysis is requested by the user, at step 122, the raw data from the CEL file are passed to a processor, which executes a program 130 a contained on a storage medium, which is in communication with the processor.

Accepting Clinical Data Input

In conjunction with the file that contains the multiple molecule abundance measurements (probe signals) for a particular patient, the user can also he asked to input other information about the patient. This information can be used for predictive, prognostic, diagnostic or other data analytical purposes, independently or in association with the molecular data. These variables can include patient age, gender, tumor grade, estrogen receptor status, Her-2 status, or other clinicopathological assessments. An electronic form can be used to collect this information, which the user can submit to a secure relational database.

Algorithms that combine ‘traditional’ clinical variables or patient demographic data and molecular data can result in more statistically significant results than algorithms that use only one or the other. The ability to collect and analyse all three types of data is a particularly advantageous aspect of at least some embodiments of the invention.

Low Level Analysis

Program 130 a is a low-level analysis module, which carries out steps of background correction, normalisation and probe set summarisation (grouped as step 250 in FIG. 2).

Background adjustment is desirable because the probe signals (fluorescence intensities) include signal from non-biological sources, such as optical and electronic noise, and non-specific binding to sequences which are not exactly complementary to the sequence of the probe. A number of background adjustment methods are known in the art. For example, Affymetrix arrays Contain so-called ‘MM’ (mismatch) probes which are located adjacent to ‘PM’ (perfect match) probes on the array. The sequence of the MM probe is identical to that of the PM probe, except for the 13^(th) base in its sequence, and accordingly the MM probes are designed to measure non-specific binding, A number of known methods use functions of PM-MM or log₂(PM)-log₂(MM) to derive a background-adjusted probe signal, for example the ideal Mismatch (IM) method used by the Affymetrix MAS 5.0 software (Affymetrix, “Statistical Algorithms Description Document” (2002), Santa Clara, Calif., incorporated herein in its entirety by reference). Other methods ignore MM, for example the model-based adjustment of Irizarry et al (Biostatistics 4, p 249 (2003)), or use sequence-based models of non-specific binding to calculate an adjusted probe signal (Wu et al, DASA 99, p 909 (2004)).

Normalisation is generally required in order to remove systematic biases across arrays due to non-biological variation. Methods known in the art include scaling normalisation, in which the mean or median log probe signal is calculated for a set of arrays, and the probe signals on each array adjusted so that they all have the same mean or median; housekeeping gene normalisation, in which the probe or probe set signals for a standard set of genes (known to vary little in the biological system of interest) in the test sample are compared to the probe signals of that same set of genes in the reference samples, and adjusted accordingly; and quantile normalisation, in which the probe signals are adjusted so that they have the same empirical distribution in the test sample as in the reference samples (Bolstad et al, Bloinformatics 19, p 185 (2003)).

If the arrays contain multiple probes per probe set, then these can be summarised by program 130 a in any one of a number of ways to obtain a probe set expression level, for example by calculating the Tukey biweight of the log (PM-IM) values for the probes in each probe set (Affymetrix, “Statistical Algorithms Description Document” (2002)).

Quality Control

Once the low-level analysis is completed, the background-corrected, normalised and, if necessary, summarised, data are passed (step 124) to program 130 b, which is a quality control (QC) module. The execution of program 130 b is depicted as step 260 in FIG. 2.

Quality data from an individual array can be used to infer the reliability and reproducibility of the entire molecular/genomic profile. One way to do this is to establish ranges for each quality metric that correspond to acceptable, warning and unacceptable levels. By analysing a large number of genomic profiles from reference samples comprising disparate tissue types and laboratory locations, a large body of quality data can be accumulated and stored in database 112.

The data for each of the quality metrics used herein approximately follow a log-normal distribution, as illustrated schematically in FIG. 4. Acceptable, warning and unacceptable ranges for each metric are thus calculated by determining the 25^(th) percentile (Q1, indicated by 410), 75^(th) percentile (Q3, indicated by 430) and corresponding interquartile range (IQR, indicated by 420) of the log-transformed values. Acceptable values are defined as those which lie between Q1-1.5*IQR and Q3+1.5*IQR.

Values in the ranges 405, 435 corresponding to ranges (Q1-1.5*IQR) to (Q1-3.0*IQR) or (Q3+1.5*IQR) to (Q3+3.0*IQR) are referred to as outliers, and are given a warning label. Values which lie to the left 403 or right 437, respectively, of those ranges are referred to as “far outliers” and are deemed to be unacceptably outside of the range of values used to develop and validate the gene expression test for which the test sample is being submitted.

The median, Q1/Q3 and IQR rather than mean and standard deviation are used to determine thresholds as the former are robust to outliers. This prevents the ranges from being overly influenced by a small number of samples that may not be representative of the true general distribution.

Table 1 is an example output from program 130 b which describes each quality measurement (QC1 to QC8) and shows the value determined from the specific array being investigated. It also identifies the acceptable range and a variable classifier (Ok/Warning/Reject) column, which may change colour based on the contents of each cell. This allows the end user to rapidly determine if their input data is suitable for further analysis.

TABLE 1 example QC output Assessment Example Result Acceptable range Within range? QC1. Percentage of total gene set detected 41.50 28% to 62% OK QC2. Background intensity (Average, Log 10) 2.7 1.2 to 2.2 REJECT QC3. Normalization factor (MAS5, log 10) −0.06 −0.99 to 1.3    OK QC4. Ratio of GAPDH 3′:5′ probes 1.01 0.9 to 1.5 OK QC5. Ratio of B-actin 3′:5′ probes 1.7 0.7 to 1.6 WARNING QC6. RNA degradation analysis 1.98 −0.4 to 8.3   OK QC7. Housekeeping genes normalization factor −0.45 −1.1 to 0.9   OK QC8. Signal to noise ratio (log 10) 1.66 1.0 to 2.1 OK

Predictive Analysis

If a test sample passes the QC checks of program 130 b it can then proceed (step 270) to predictiye analysis as carried out by statistical classification program 135, which is used to assign a value of a clinically relevant variable to the sample, Such clinical parameters could include:

The primary tissue of origin for a biopsy of metastatic cancer;

The molecular similarity to patients who do or do not experience disease relapse with a defined time period after their initial treatment;

The molecular similarity to patients who respond poor or well to a particular type of therapeutic agent;

The status of clinicopathological markers used in disease diagnosis and patient management, including ER, PR, Her2, angiogenesis markers (VEGF, Notch), Ki67 etc.;

Possible chromosomal aberrations, including deletions and amplifications of part or whole of a chromosome;

The molecular similarity to patients who respond poor or well to a particular type of radiotherapy;

Other methods that may be developed by 3 party developers and implemented in the system via an Application Programming interface (API).

The predictive algorithms used in at least some embodiments of the present invention function by comparing the data from the test sample, to the series of reference samples for which the variable of interest is confidently known, usually having been determined by other more traditional means. The series of known reference samples can be used as individual entities, or grouped in some way to reduce noise and simplify the classification process.

Algorithms such as the K-nearest neighbor (KNN) algorithm use each reference sample of known type as separate entities. The selected genes/molecules (probe sets) are used to project the known samples into multi-dimensional gene/molecule space as shown in FIG. 5, in which the first three principal components for each sample are plotted. The number of dimensions is equal to the number of genes. The test sample is then inserted into this space and the nearest K reference samples are determined, using one of a range of distance metrics, for example the Euclidean or Mahalanobis distance between the points in the multi-dimensional space. Evaluating the classes of the nearest K reference samples to the test sample and determining the weighted or non-weighted majority class present can then be used to infer the class of the test sample.

The variation of classes present in the K nearest neighbors can also be used as a confidence score. For example, if 4 out of 5 of the nearest neighbor samples to a given test sample were of the same class (eg Ovarian cancer) the predicted class of the test sample would be Ovarian cancer, with a confidence score of 4/5=80%.

Other methods of prediction rely on creating a template or summarized version of the data generated from the reference samples of known class. One way this can be done is by taking the average of each selected gene across clinically distinct groups of samples (for example, those individuals treated with a particular drug who experience a positive response compared to those with the same disease/treatment who experience a negative or no response). Once this template has been determined, the class of a test sample can be inferred by calculating a similarity score to one or both templates. The similarity score can be a correlation coefficient.

Classifiers such as the nearest centroid classifier (NCC), linear discriminant analysis (LDA) or support vector machines operate on this basis (SVM). LDA and SW carry out weighting of the genes/molecules when creating the classification template, which can reduce the impact of outlier measurements and spread the classification workload evenly over all genes/molecules selected, rather than relying on a subset to contribute to a majority of the total index score calculated. This can be the case when using a simple correlation coefficient as a predictive index.

Preparation of Reference Data Set

To make clinically useful predictions about a specimen of biological material that has been collected from an individual patient, a large database of reference data from patients with the same condition is desirable. The reference samples are preferably processed using similar, more preferably identical, laboratory processes and the reference data are ideally generated using the same type of measurement platform, for example, an oligonucleotide microarray, to avoid the need to match gene identifiers across different platforms.

The reference data can be generated from tissue specifically collected or obtained for the diagnostic test being created, or from publically available sources, such as the NCBI. Gene Expression Omnibus (GEO: http://wvvw.ncbi.nlm.nih.govigeo/). Clinical details about each patient can be used to determine whether the finished database accurately reflects the targeted patient population, for example with regard to age/sex/ethnicity and other relevant parameters specific to the disease of interest.

Conical annotations can be used for analysis of the same input data at different levels. For example, cancer can be classified using a hierarchy of annotations. These begin at the system level, and then progress to unique tissues and subtypes, which are defined on the basis of pathological or molecular characteristics. The NCI Thesaurus is a source of. hierarchical cancer classification information (http://nciterms.nci.nih.gov/NCIBrowser/Dictionary.do).

All data generated or obtained can be stored in organized flat files or in relational database format, such as Microsoft Access or Microsoft SQL Server. In this format it can be readily accessed and processed by analytical algorithms trained to use all or part of the data to predict the status of a clinically relevant parameter for a given test sample.

Presentation of Results To User

Following execution of classification program 135, the clinical predictions are stored in relational database 112. An interface 111 from the server 110 to database 112 can be used to deliver online and offline results to the end user. Online results can be delivered in HTML or other dynamic file format, whereas portable document format (PDF) can be used for creating permanent files that can be downloaded from the interface 111 and stored indefinitely. Result information in the form of text, HTML or PDF can also be delivered to the user by electronic mail.

AJAX Web 2.0 technologies can be used to streamline the presentation of online results and general functionality of the Web site.

Parallel Processing of Data

A single processor may be used to execute each of the programs 130 a, 130 b, 135 and any other analysis desired. However, it is advantageous to configure the system 100 such that each analysis module is managed by a separate processor. This allows parallel execution of different user requests to be performed simultaneously, with the results stored in a single centralized relational database 112 and structured file system.

In thin embodiment, illustrated schematically in FIG. 3, each module is programmed to monitor 320 a specific network directory (“trigger directory”). When the system operator requests 305 an analysis, either by uploading a new data file or requesting an additional analysis on a previously uploaded data file, the Web server 110 creates a “trigger file” in the directory 325 being monitored by the processing application. This trigger file contains the operator's unique identifier and the unique name of the data file on which to carry out the analysis. When the classification module 135 detects (step 330) one or more trigger files, the contents of the file are read and stored temporarily in memory. The processing application then performs its preconfigured analysis routine, using the data file corresponding to the information contained in the trigger file. The data file is retrieved from the user's data directory (residing on a storage medium in communication with the server or other network-accessible computer) and read into memory in order to perform the requested calculations and other functions. Once the analysis routine is complete, the trigger file is deleted and the module 135 returns to monitoring its trigger directory for the next trigger file.

Multiple versions of the same classification module 135 can run simultaneously on different processors, all configured to monitor the same trigger directory and write or save their output to the same relational database 112 and file storage system. Alternatively, different modules in addition to classification module 135 could be run on different processors at the same time using the same input data. For processes that take several minutes (eg initial chip processing and Quality Module 130 a) this enables analysis requests 305 that are submitted, while an existing request is underway, to be commenced before the completion of the first.

Addition of Further Analysis Modules

It will be appreciated that many other types of analysis (diagnostic, predictive, prognostic or other) may be conducted within the framework of the system provided by the present invention. When a new analysis program is created, it can he added to the list of analysis modules selectable by a user for execution on one or more input data files.

Additional modules can be added to the system by creating additional ‘trigger’ directories, monitored by analysis scripts. These can, of course, be used in conjunction with existing modules, such as the quality module described above.

A molecular profile can be adapted for use with the system by providing

Details of the technology used to measure the status of the molecules necessary to perform the test (e.g. genes, proteins, antibodies);

A list of molecular identifiers (probe or probe set identifiers, or gene or protein databank accession numbers, for example) specific to the platform used to develop, and to be Used for future application of, the test;

A reference set of data from patients with the target disease (or other clinical identification) derived from the same class of patients; and

A statistical equation which describes how data corresponding to the molecular identifiers and reference dataset are used to predict the status of a test sample.

A custom results interface can then be created and incorporated into the system, linked to the underlying databases and results delivery mechanisms described previously, Technology-specific quality control measurements can also be incorporated, if they are not adequately represented by those contained in the quality module described previously.

EXAMPLE 1

Preparation of Reference Data

The expO data, NCBI GEO accession number GSE2109, generated by the International Genomics Consortium, was used as a reference data set to train a tumor origin classifier.

Downloaded CEL files corresponding to the reference samples were pre-processed with the algorithms from Affymetrix MAS 5.0 software and compiled into BRB ArrayTools format, with housekeeping gene normalization applied. Using the associated clinical information from GSE2109, samples were classified at 3 levels of clinical annotation; (1) anatomical system (n=13), (2) tissue (n=29) and (3) subtype (n=295), as shown in FIG. 6. For Level 1 and 2 annotations, a minimum class size of three was set. The mean class sizes for the three levels of sample annotation were: (1) 149; (2) 66 and (3) 6, correlating with number of neighbors used in the kNN algorithm (r²=0.99).

Data Analysis and Web Service Construction

Predictive gene expression models were developed using BRB ArrayTools and translated to automated scripts in the R statistical language, incorporating functions from the Bioconductor project (Gentleman et al, Genome Biology 5, R80 (2004)). The Web service was constructed in the Microsoft ASP.net language (Redmond, USA; version 3.5) with supporting relational databases developed in Microsoft SQL Server 2008. Statistical analysis of internal cross validation and independent validation series results was performed using Minitab (Minitab Inc. State College Pa., version 15.1.3) and MedCalc (MedCalc Software, Mariakerke, Belgium).

Selecting A Reference Array For Housekeeping Gene Based Normalization

Most cells in the human body express under most circumstances, at comparatively constant levels, a set of genes referred to as “housekeeping genes” for their role in maintaining structural integrity and core cellular processes such as energy metabolism. The Affymetrix U133 Plus 2.0 GeneChip (NCBI GEO accession number GPL 570) contains 100 probe sets that correspond to known housekeeping genes, which can be used for data normalization and quality control purposes. For normalization purposes, the 100 housekeeping genes present on a given array within the reference data set were compared to those of a specific normalization array. To select a normalization array for this test. BRB-ArrayTools was used to identify the “median” array from the entire reference data set. The algorithm used was as follows:

Let N be the number of arrays, and let i be an index of arrays running from 1 to N.

For each array I, compute the median log-intensity of the array (denoted M_(i).

Select a median M from the [M₁, . . ., M_(N)] values. If N is even, then the median M is the lower of the two middle values.

Choose as the median array the one for which the median log-intensity M_(i) equals the overall median M.

Housekeeping gene normalization was applied to each array in the reference data set. The differences between the log₂ expression levels for housekeeping genes in the array and log₂ expression levels for housekeeping genes in the normalization array were computed. The median of these differences was then subtracted from the log₂ expression levels of all 54,000 probe sets, resulting in a normalized whole genome gene expression profile.

Selection of Marker Probe Sets For Tumor-Type Discrimination

To select probe sets for the prediction of tumor origin, ‘one-v-all’ comparisons (t-tests) were performed for each tissue type in the training set (n=29) to identify probe sets which were differentially expressed in each tissue type compared to the rest of the data set. The probe sets identified by this procedure provide a characteristic gene expression signature for tumours originating in each tissue type.

In each comparison, genes that had a p-value less than 0.01 for differential expression, and a minimum fold change of 1.5 in either direction (upregulated or downregulated) were identified as marker probe sets. The analysis was performed using BRB ArrayTools (National Institute of Health, US). The 29 sets of marker probe sets were combined into a single list of 2221 unique probe sets, which are listed in Table 4.

The normalized expression data corresponding to these marker probe sets was retrieved from the complete 1942 reference sample×54000 probe set reference data, and this subset was passed to a kNN algorithm at both Level 1 (Anatomical-system, SNN (nearest neighbours) used) and Level 2 (Tissue, 3NN used) clinical annotation.

To evaluate whether a smaller set of probe sets would achieve lower misclassification rates, leave-one-out cross validation (LOOCV) of the level 1 and 2 classifiers was performed using multiples of 100 probe sets from 10 to 2220, after ranking in descending order of variance. For each cross-validation test, the percentage agreement between the true and predicted classes was recorded and this is shown in FIGS. 7(a) and 7(b). The maximum classification accuracy obtained was 90% for Level 1 and 82% for Level 2. Reducing the number of marker probe sets used did not significantly improve computation speed.

Validation Datasets For Prediction of Tumor Origin

CEL files from 22 independent Affymetrix datasets (all Affymetrix U133 Plus 2.0) containing a total of 1,710 reference samples were downloaded from NCBI GEO and processed as previously described. These datasets represent a broad range of primary and metastatic cancer types, contributing institutes and geographic locations, as detailed in Table 2.

Of 1,461 primary tumor validation samples that passed all QC checks, the Level 1 and Level 2 classifiers predicted 92% and 82% correctly. Tumor Subtype data were not available for most validation datasets; therefore percentage accuracy of this level (3) of the classifier was not calculated. The difference observed between Level 1 and Level 2 classifier accuracy is largely influenced by ovary/endometriod and colon/gastric misclassifications. As with all comparisons of novel diagnostic methods with clinically derived results, the percentage agreement is dependent on multiple factors, including the accuracy of the clinical annotation, integrity of the sample annotations and data files as well as the performance characteristics of the method itself.

General linear model analysis was performed on the proportion of correct level 1 and level 2 predictions, including tissue type (n=10) and geographic location (n=3) in a regression equation to determine if these variables were factors in overall result accuracy. For Level 1 predictions (anatomical system), no significant difference in result accuracy was observed for tissue type (P=0.13) or geographic location (P=0.86). For Level 2 predictions (tissue type), a marginally significant difference was observed with tissue type (P=0.049) but no. significant difference associated with location (P=0.38). The significant difference associated with tissue type at Level 2 is most likely associated with the small sample size of some tumor types.

TABLE 2 Independent primary tumor datasets used for validation of the tumor origin classifier. Percent agreement with the original (clinically-determined) diagnosis shown. Agreement of the Level 2 classifier increases to 90% if colon/rectum misclassifications are considered as correct. Level 1 Level 2 classifier % classifier % NCBI agreement agreement GEO % samples with with Cancer Dataset passing all QC clinical clinical Type Origin ID samples checks diagnosis diagnosis Breast Boston, MA, USA GSE5460 125 95% 100% 99% Breast San Diego, CA, GSE7307 5 100% 100% 100% USA Colon Singapore GSE4107 22 91% 100% 90% Colon Zurich, Switerland GSE8671 64 100% 100% 69% Gastric Singapore GSE15460 236 96% 89% 44% Gastric Singapore GSE15459 200 95% 96% 54% Liver Taipel, Taiwan GSE6222 13 85% 91% 91% Liver Cambridge, MA, GSE9829 91 82% 99% 99% USA Lung St Louis, MO, USA GSE12667 75 99% 89% 88% Lung Villejuif, France GSE10445 72 57% 93% 95% Melanoma Tampa, FL, USA GSE7553 40 100% 68% 65% Melanoma Durham, NC, USA GSE10282 43 100% 65% 84% Ovarian Melbourne, GSE9891 285 100% 99% 96% Australia Ovarian Ontario, Canada GSE10971 37 97% 100% 72% Prostate Ann Arbor, MI, GSE3325 19 95% 89% 89% USA Prostate San Diego, CA, GSE7307 10 100% 90% 90% USA Soft Paris, France M-EXP- 16 100% 75% 75% tissue 964* Soft New York, NY, GSE12195 83 99% 98% 98% tissue USA Thyroid columbus, OH, GSE6004 18 67% 100% 100% USA Thyroid Valhalla, NY, USA GSE3678 14 93% 92% 100% Total: Mean: 92% Mean: Mean: 1468 92% 85% *Dataset obtained from EBI ArrayExpress (http://www.ebi.ac.uk/microarray-as/ae/)

Creating An Automated Microarray Quality Control System

The total set of 2,775 U133 Plus 2.0 arrays used in the training and validation stages of this analysis was used to derive acceptable ranges, as discussed above, for 8 different QC parameters. The ranges are shown in Table 3.

TABLE 3 Quality module components and acceptable ranges, determined by analysis of all training and validation samples. Lower range = Q1 − 3*IQR, Upper range = Q3 + 3*IQR Acceptable Number Quality assessment range 1 Percentage of total gene set detected 28% to 62% 2 Background intensity (Average across chip, 1.2 to 2.2 Log 10) 3 Normalization factor (MAS5, log10) −0.99 to 1.3    4 Ratio of GAPDH 3′:5′ probes 0.9 to 1.5 5 Ratio of B-actin 3′:5′ probes 0.7 to 1.6 6 RNA degradation analysis (slope of regression −0.4 to 8.3   line) 7 Housekeeping genes normalization factor −1.1 to 0.9   8 Signal to noise ratio (log10) - mean probe 1.0 to 2.1 intensity/mean background intensity

The Bioconductor package ‘SimpleAffy’ (Wilson and Miller, Bioinformatics 21, p 3683 (2005)) was used to generate measurements of background intensity, percentage of probe sets detected and 3′/5′ ratios. RNA degradation slopes were computed using the ‘AffyRNAdeg’ function in the ‘affy’ package (Gautier et al, Bioinformatics 20, p 307 (2004)).

The quality module also includes two assessments of data normalization. These are the MASS scaling factor and the log (base 2) of the housekeeping gene set normalization factor (i.e. the median difference between the log expression levels of housekeeping genes in a given sample and those of the housekeeping genes in the reference data as a whole).

The final assessment that is made is the signal-to-noise ratio (SNR) which is the log 10 ratio of mean probe set intensity divided by the mean background intensity. This metric is designed to ensure there is a sufficiently large difference between probe and background hybridization, which will not occur if the RNA is heavily degraded or problems with procedures such as RNA labelling or chip washing have occurred.

Patient Render Prediction

As an additional data quality control measure, a predictive Diagonal Linear Discriminant Analysis (DLDA) algorithm can be used for gender classification. Genes that were differentially expressed with a p-value less than 0.001 and minimum fold change of 2 between the 1,453 female and 695 male patients (regardless of cancer type) were selected as those which could distinguish males from females. A test sample, which is submitted for the purpose of other classification analyses, can be passed to the DLDA algorithm, which predicts the gender of the test sample based on the expression levels of the gender-discriminating genes thus identified.

The trained DLDA classifier for patient gender consists of 183 probe sets. During 3×3 fold cross validation, the gender of 97% of the 2,148 samples was correctly predicted, with a sensitivity of 97% and specificity of 95% from this internal validation exercise.

A Three-Stage Classifier For Prediction of Tumor Origin

Reflecting the nature of existing diagnostic workflows for metastatic tumors, a novel 3-tiered approach to predicting the origin of a metastatic tumor biopsy was developed. For each test sample analysed, 3 rounds of kNN classification were performed, using the 3 levels of annotation previously described, Le. (1) anatomical system, (2) tissue and (3) histological subtype, with k=5, 3 and 1 respectively. The decreasing value of k with increasing specificity of tissue annotation was chosen based on the decreasing mean class size at each tier of the classifier, with which it is highly correlated (r²=0.99).

A measurement of classifier confidence was generated for Level 1 (k=5) and Level 2 (k=3) results by determining the relative proportion of test sample's 5 or 3 neighbors (respectively) that contribute to the winning class. The Level 3 prediction (k=1) identifies the specific individual tumor from the reference database that is closest to the test sample, in multi-dimensional gene expression space. As such, it is not possible to calculate a weighted confidence score for this level of classifier.

To determine the internal cross validation performance of the reference data and 3-tier algorithm, leave-one-out cross validation (LOOCV) was performed on the reference data set, using annotation levels 1 and 2. Results were tamed and overall percentage agreement and class-specific sensitivities and specificities were determined. The R/Bioconductor package “class” was used for kNN classification and predictive analyses.

EXAMPLE 2

Two training data sets from untreated breast cancer patients (GEO accession numbers GSE4922 and GSE6352), including a total of 425 samples hybridized to Affymetrix HG-U133A arrays (GEO accession number GPL96) were downloaded in CEL'file format. Clinical data were available for age, grade, ER status, tumour size, lymph node involvement, and follow-up data for up to 15 years after diagnosis were also available. An independent validation data set, consisting of samples from 128 Tamoxifen-treated patients hybridized to Affymetrix HG-U133Plus2 arrays with age, grade, ER status, nodal involvement and tumour size data, was also obtained. A semi-supervised method substantially in line with the method described by Bair and Tibshirani (PLoS Biology 2, p 511 (2004), incorporated herein in its entirety by reference) was used, with algorithm settings of k=2 (number of principal components for the “supergenes”), p-value threshold of 0.001 for significance of a probe set being univariately correlated with survival, 10-fold cross-validation, and age, grade, nodes, tumour size and ER status used as clinical covariates. The method identified 200 prognostic marker probe sets, shown in Table 5, and gave the following model for risk of recurrence (Formula 1):

${PI} = {{\sum\limits_{i = l}^{200}{w_{i}x_{i}}} - {0.139601({grade})} + {0.64644({ER})} + {0.938702({nodes})} + {0.010679\left( {{size}({mm})} \right)} + {0.023595({age})} + 0.243639}$

In Formula 1, w_(i) is the weight of the i^(th) probe set, x_(i) is its log expression level, and PI is prognostic index.

FIGS. 8(a) and 8(b) show Kaplan Meier analysis of 10-fold cross validation predictions made for the 425-sample training set. Log rank tests were used to compare the survival characteristics of the two risk groups identified.

Evaluation of the cross-validation predictions made for the training set revealed a highly statistically significant difference in the survival characteristics of the high and low risk groups. Of the 425 patients, 297 (70%) were classified as high-risk and 128 (30%) as high risk. The p-value of the Kaplan Meier analysis log-rank test was P<0,0001 and the hazard ratio of the classifier was 3.75 (95% confidence interval 2.47 to 5.71),

In the training set, 85% of patients classified as low risk were disease-recurrence free at 5 years after treatment, In the high-risk group, 41% of patients experienced disease recurrence within this same time period.

FIGS. 9(a) and 9(b) show survival characteristics of the high and low risk groups for the independent validation data set. The groups identified in this cohort are, more similar to each other up to 3 years after diagnosis. This is likely attributable to the use of Tamoxifen in these patients. After this time point survival characteristics are significantly different.

Kaplan Meier analysis and log-rank testing was performed on the independent validation set. The P-value associated with the log rank test was P=0.0007. A hazard ratio of 4.90 (95% confidence interval 1.96 to 12.28) was observed. These figures indicate that the classifier was able to stratify the patients into two groups with markedly different survival characteristics.

Overall those individuals in the high-risk group are 4.9 times more likely to experience disease recurrence than those in the low risk group in the 10 years after diagnosis. Three quarters of the independent validation patients are classified as low risk (n=97) and of these, 90% are recurrence-free after 5 years.

Additionally, multivariate Cox Proportional Hazards analysis was performed on the 128 sample independent validation set. Two models were built and tested, one including the clinical variables only, and the other including the clinical variables and classifier prediction variable (high/low risk). The significance level of the clinical-only model was P=0,0291, whilst for the clinical+classifier model it was P=0.0126, The classifier remained independently prognostic in the second model (P=0.048).

These results indicate that the classifier (comprised of 200 genes+5 clinical variables) is able to stratify patients into high and low risk groups for disease recurrence. Furthermore, the stratification of patients is more statistically significant than the use of clinical variables alone. The prognostic significance of the classifier has been evaluated in patients who do and do not receive Tamoxifen treatment following their initial diagnosis and surgical procedure.

TABLE 4 List of probes used for tumor origin prediction Affymetrix Probe ID Genbank Accession number Unigene ID Gene symbol 204769_s_at M74447 Hs.502 TAP2 206422_at NM_002054 Hs.516494 GCG 209937_at BC001386 Hs.133527 TM4SF4 204673_at NM_002457 Hs.315 MUC2 1554436_a_at AY126671 Hs.660883 REG4 214303_x_at AW192795 Hs.534332 MUC5AC 204697_s_at NM_001275 Hs.150793 CHGA 223447_at AY007243 Hs.660883 REG4 242601_at AA600175 Hs.443169 HEPACAM2 215688_at AL359931 Hs.591111 RASGRF1 208131_s_at NM_000961 Hs.302085 PTGIS 205249_at NM_000399 Hs.1395 EGR2 206750_at NM_002360 Hs.520612 MAFK 210170_at BC001017 Hs.85862 PDLIM3 203240_at NM_003890 Hs.111732 FCGBP 207214_at NM_014471 Hs.555934 SPINK4 214385_s_at AI521646 Hs.534332 MUC5AC 216206_x_at BC005365 Hs.531754 MAP2K7 228335_at AW264204 Hs.31595 CLDN11 227971_at AI653107 Hs.209527 NRK 207591_s_at NM_006015 Hs.468972 ARID1A 239144_at AA835648 Hs.713609 B3GAT2 203806_s_at NM_000135 Hs.567267 FANCA 232546_at AL136528 Hs.697294 TP73 201262_s_at NM_001711 Hs.821 BGN 206690_at NM_001094 Hs.368417 ACCN1 201431_s_at NM_001387 Hs.519659 DPYSL3 233985_x_at AV706485 Hs.21816 PPP1R9A 210240_s_at U20498 Hs.435051 CDKN2D 229529_at AI827830 Hs.78061 TCF21 231542_at AL157421 226755_at AI375939 Hs.510543 LOC642587 223597_at AB036706 Hs.50813 ITLN1 204337_at AL514445 Hs.386726 RGS4 236017_at AI199453 Hs.105818 CDKL3 205822_s_at NM_002130 Hs.397729 HMGCS1 216339_s_at AF086641 TNXA 228658_at R54042 Hs.653712 MIAT 228399_at AI569974 Hs.123933 OSR1 208323_s_at NM_004306 Hs.181107 ANXA13 1560770_at BQ719658 Hs.387804 PABPC1 202928_s_at NM_024165 Hs.166204 PHF1 204359_at NM_013231 Hs.533710 FLRT2 220037_s_at NM_016164 Hs.655332 LYVE1 201666_at NM_003254 Hs.522632 TIMP1 205161_s_at NM_003847 Hs.31034 PEX11A 211062_s_at BC006393 Hs.78068 CPZ 203929_s_at AI056359 Hs.101174 MAPT 238878_at AA496211 Hs.300304 ARX 229335_at BE645821 Hs.370984 CADM4 229212_at BE220341 Hs.644056 CSNK2A1 219059_s_at AL574194 Hs.655332 LYVE1 1559064_at BC035502 Hs.601591 NUP153 228004_at AL121722 C20orf56 230242_at AA634220 Hs.13349 NFASC 206115_at NM_004430 Hs.534313 EGR3 238231_at AV700263 Hs.233458 NFYC 236131_at AW452631 207935_s_at NM_002274 Hs.654550 KRT13 214079_at AK000345 Hs.272499 DHRS2 241987_x_at BF029081 Hs.567758 SNX31 206463_s_at NM_005794 Hs.272499 DHRS2 220779_at NM_016233 Hs.149195 PADI3 214624_at AA548647 Hs.159309 UPK1A 203074_at NM_001630 Hs.705389 ANXA8L2 205319_at NM_005672 Hs.652235 PSCA 202226_s_at NM_016823 Hs.638121 CRK 210655_s_at AF041336 Hs.220950 FOXO3 1552627_a_at NM_001173 Hs.592313 ARHGAP5 1556168_s_at BC042133 Hs.361778 LOC339766 210143_at AF196478 Hs.188401 ANXA10 208750_s_at AA580004 Hs.286221 ARF1 204268_at NM_005978 Hs.516484 S100A2 207782_s_at NM_007319 Hs.3260 PSEN1 209863_s_at AF091627 Hs.137569 TP63 220773_s_at NM_020806 Hs.208765 GPHN 202825_at NM_001151 Hs.246506 SLC25A4 242733_at AI457588 39248_at N74607 Hs.234642 AQP3 214908_s_at AC004893 Hs.203952 TRRAP 210337_s_at U18197 Hs.387567 ACLY 200693_at NM_006826 Hs.74405 YWHAQ 203953_s_at BE791251 Hs.647023 CLDN3 232481_s_at AL137517 Hs.525105 SLITRK6 206658_at NM_030570 Hs.488861 UPK3B 214487_s_at NM_002886 Hs.98643 RAP2B 242509_at R71072 230188_at AW138350 Hs.4285 ICHTHYIN 213992_at AI889941 Hs.145586 COL4A6 232176_at R70320 Hs.525105 SLITRK6 202927_at NM_006221 Hs.465849 PIN1 229151_at BE673587 Hs.101307 SLC14A1 1555814_a_at AF498970 Hs.247077 RHOA 206209_s_at NM_000717 Hs.89485 CA4 231904_at AU122448 Hs.365116 U2AF1 211797_s_at U62296 Hs.233458 NFYC 208852_s_at AI761759 Hs.699155 CANX 219936_s_at NM_023915 Hs.591292 GPR87 235976_at AI680986 Hs.525105 SLITRK6 213050_at AA594937 Hs.99141 COBL 206504_at NM_000782 Hs.89663 CYP24A1 217294_s_at U88968 Hs.517145 ENO1 1564494_s_at AK075503 Hs.464336 P4HB 209772_s_at X69397 Hs.644105 CD24 236926_at AW074836 Hs.173984 TBX1 208621_s_at BF663141 Hs.487027 EZR 206771_at NM_006953 Hs.632787 UPK3A 202820_at NM_001621 Hs.171189 AHR 200059_s_at BC001360 Hs.247077 RHOA 1558214_s_at BG330076 Hs.534797 CTNNA1 218284_at NM_015400 Hs.618504 SMAD3 207686_s_at NM_001228 Hs.599762 CASP8 201461_s_at NM_004759 Hs.643566 MAPKAPK2 200624_s_at AA577695 Hs.268939 MATR3 219909_at NM_024302 Hs.380710 MMP28 207612_at NM_003393 Hs.421281 WNT8B 205856_at NM_015865 Hs.101307 SLC14A1 211934_x_at W87689 Hs.595071 GANAB 204379_s_at NM_000142 Hs.1420 FGFR3 202527_s_at NM_005359 Hs.75862 SMAD4 208853_s_at L18887 Hs.699155 CANX 232116_at AL137763 Hs.657920 GRHL3 212236_x_at Z19574 Hs.2785 KRT17 201017_at BG149698 Hs.522590 EIF1AX 206393_at NM_003282 Hs.523403 TNNI2 210065_s_at AB002155 Hs.271580 UPK1B 209192_x_at BC000166 Hs.528299 KAT5 202354_s_at AW190445 Hs.68257 GTF2F1 235417_at BF689253 Hs.62604 SPOCD1 211151_x_at AF185611 Hs.655229 GH1 AFFX-HSAC07/X00351_5_at AFFX-HSAC07/X00351_5 Hs.520640 ACTB 204602_at NM_012242 Hs.40499 DKK1 220026_at NM_012128 Hs.567422 CLCA4 210756_s_at AF308601 Hs.487360 NOTCH2 205132_at NM_005159 Hs.709351 ACTC1 213022_s_at NM_07124 Hs.133135 UTRN 206207_at NM_001828 Hs.889 CLC 210064_s_at NM_006952 Hs.271580 UPK1B 1558093_s_at BI832461 Hs.268939 MATR3 213002_at AA770596 Hs.519909 MARCKS 217234_s_at AF199015 Hs.487027 EZR 225211_at AW139723 Hs.334846 PVRL1 223687_s_at AA723810 Hs.69517 LY6K 1556793_a_at AK091138 Hs.592149 FAM83C 1552496_a_at NM_015198 Hs.99141 COBL 205157_s_at NM_000422 Hs.2785 KRT17 204247_s_at NM_004935 Hs.647078 CDK5 201401_s_at M80776 Hs.83636 ADRBK1 200664_s_at BG537255 Hs.515210 DNAJB1 209364_at U66879 Hs.370254 BAD 202449_s_at NM_002957 Hs.590886 RXRA 214639_s_at S79910 Hs.67397 HOXA1 AFFX-HUMISGF3A/M97935_5_at AFFX-HUMISGF3A/M97935_5 Hs.642990 STAT1 227143_s_at AA706658 Hs.591054 BID 215050_x_at BG325734 Hs.643566 MAPKAPK2 215037_s_at U72398 Hs.516966 BCL2L1 209051_s_at AF295773 Hs.106185 RALGDS 206466_at AB014531 Hs.655760 ACSBG1 203582_s_at NM_004578 Hs.296169 RAB4A 205523_at U43328 Hs.2799 HAPLN1 201131_s_at NM_004360 Hs.461086 CDH1 222008_at NM_001851 Hs.590892 COL9A1 205524_s_at NM_001884 Hs.2799 HAPLN1 217744_s_at NM_022121 Hs.520421 PERP 226213_at AV681807 Hs.118681 ERBB3 209902_at U49844 Hs.271791 ATR 201727_s_at NM_001419 Hs.184492 ELAVL1 213909_at AU147799 Hs.288467 LRRC15 213487_at AI762811 Hs.465627 MAP2K2 231175_at N48613 Hs.582993 C6orf65 206869_at NM_001267 Hs.97220 CHAD 209771_x_at AA761181 1557053_s_at BC035653 Hs.529420 UBE2G2 208867_s_at AF119911 Hs.529862 CSNK1A1 221215_s_at NM_020639 Hs.517310 RIPK4 203889_at NM_003020 Hs.156540 SCG5 227803_at AA609053 Hs.35198 ENPP5 216379_x_at AK000168 202454_s_at NM_001982 Hs.118681 ERBB3 206075_s_at NM_001895 Hs.644056 CSNK2A1 205066_s_at NM_006208 Hs.527295 ENPP1 232523_at AU144892 Hs.438709 MEGF10 231736_x_at NM_020300 Hs.389700 MGST1 208651_x_at M58664 Hs.644105 CD24 229271_x_at BG028597 Hs.523446 COL11A1 201596_x_at NM_000224 Hs.406013 KRT18 225275_at AA053711 Hs.482730 EDIL3 201235_s_at BG339064 Hs.519162 BTG2 231867_at AB032953 Hs.654631 ODZ2 222392_x_at AJ251830 Hs.520421 PERP 217888_s_at NM_018209 Hs.25584 ARFGAP1 204037_at BF055366 Hs.126667 LPAR1 206298_at NM_021226 Hs.655672 ARHGAP22 160020_at Z48481 Hs.2399 MMP14 213870_at AL031228 Hs.390171 COL11A2 212089_at M13452 Hs.594444 LMNA 221900_at AI806793 Hs.353001 COL8A2 224918_x_at AI220117 Hs.389700 MGST1 204320_at NM_001854 Hs.523446 COL11A1 218186_at NM_020387 Hs.632469 RAB25 204736_s_at NM_001897 Hs.513044 CSPG4 213276_at T15766 Hs.351887 CAMK2B 202677_at NM_002890 Hs.664080 RASA1 204724_s_at NM_001853 Hs.126248 COL9A3 205959_at NM_002427 Hs.2936 MMP13 208992_s_at BC000627 Hs.463059 STAT3 266_s_at L33930 Hs.644105 CD24 208650_s_at BG327863 Hs.644105 CD24 229088_at BF591996 Hs.527295 ENPP1 213943_at X99268 Hs.66744 TWIST1 209008_x_at U76549 Hs.533782 KRT8 214247_s_at AU148057 Hs.292156 DKK3 210827_s_at U73844 Hs.67928 ELF3 225147_at AL521959 Hs.487479 CYTH3 214726_x_at AL556041 Hs.183706 ADD1 205475_at NM_007281 Hs.7122 SCRG1 1565269_s_at AF047022 Hs.648565 ATF1 1565162_s_at D16947 Hs.389700 MGST1 217901_at BF031829 Hs.412597 DSG2 37892_at J04177 Hs.523446 COL11A1 204854_at NM_014262 Hs.631655 LEPREL2 211300_s_at K03199 Hs.654481 TP53 201839_s_at NM_002354 Hs.542050 TACSTD1 213791_at NM_006211 Hs.339831 PENK 224650_at AL117612 Hs.201083 MAL2 211597_s_at AB059408 Hs.654864 HOPX 228834_at BF240286 Hs.709952 TOB1 206655_s_at NM_000407 Hs.283743 GP1BB 206237_s_at NM_013957 Hs.453951 NRG1 203352_at NM_002552 Hs.558364 ORC4L 223319_at AF272663 Hs.208765 GPHN 238516_at BF247383 Hs.471119 BMPR2 205980_s_at NM_015366 Hs.102336 PRR5 219183_s_at NM_013385 Hs.170944 CYTH4 202790_at NM_001307 Hs.513915 CLDN7 229296_at AI659477 Hs.711775 LOC100128501 207384_at NM_005091 Hs.137583 PGLYRP1 201792_at NM_001129 Hs.439463 AEBP1 224506_s_at BC006362 Hs.134292 PPAPDC3 203954_x_at NM_001306 Hs.647023 CLDN3 220273_at NM_014443 Hs.156979 IL17B 231941_s_at AB037780 Hs.599259 MUC20 226210_s_at AI291123 Hs.525589 MEG3 216326_s_at AF059650 Hs.519632 HDAC3 229218_at AA628535 Hs.489142 COL1A2 236028_at BE466675 Hs.518726 IBSP 227510_x_at AL037917 Hs.642877 MALAT1 203351_s_at AF047598 Hs.558364 ORC4L 208643_s_at J04977 Hs.388739 XRCC5 206201_s_at NM_005924 Hs.170355 MEOX2 203325_s_at AI130969 Hs.210283 COL5A1 209466_x_at M57399 Hs.371249 PTN 202997_s_at BE251211 Hs.626637 LOXL2 223199_at AA404592 Hs.515032 MKNK2 214917_at AK024252 Hs.43322 PRKAA1 205257_s_at NM_001635 Hs.592182 AMPH 223749_at AF329836 Hs.110062 C1QTNF2 209604_s_at BC003070 Hs.524134 GATA3 209603_at AI796169 Hs.524134 GATA3 209602_s_at AI796169 Hs.524134 GATA3 244579_at AI086336 210239_at U90304 Hs.435730 IRX5 223864_at AF269087 Hs.373787 ANKRD30A 206509_at NM_002652 Hs.99949 PIP 206378_at NM_002411 Hs.46452 SCGB2A2 237339_at AI668620 Hs.144151 hCG_25653 227629_at AA843963 Hs.368587 PRLR 209343_at BC002449 Hs.516769 EFHD1 1553602_at NM_058173 Hs.348419 MUCL1 217014_s_at AC004522 Hs.546239 AZGP1 209309_at D90427 Hs.546239 AZGP1 214451_at NM_003221 Hs.33102 TFAP2B 1559949_at T56980 237395_at AV700083 Hs.176588 CYP4Z1 205913_at NM_002666 Hs.103253 PLIN 202575_at NM_001878 Hs.405662 CRABP2 1553434_at NM_173534 Hs.591431 CYP4Z2P 204653_at BF343007 Hs.519880 TFAP2A 206227_at NM_003613 Hs.442180 CILP 1553394_a_at NM_003221 Hs.33102 TFAP2B 228462_at AI928035 Hs.282089 IRX2 1560850_at BC016831 230472_at AI870306 Hs.424156 IRX1 238021_s_at AA954994 Hs.237396 hCG_1815491 229476_s_at AW272342 Hs.591969 THRSP 204942_s_at NM_000695 Hs.87539 ALDH3B2 219197_s_at AI424243 Hs.523468 SCUBE2 201525_at NM_001647 Hs.522555 APOD 219288_at NM_020685 Hs.47166 C3orf14 207175_at NM_004797 Hs.80485 ADIPOQ 224146_s_at AF352582 Hs.652267 ABCC11 227475_at AI676059 Hs.591352 FOXQ1 202376_at NM_001085 Hs.534293 SERPINA3 237350_at AW027968 Hs.653449 TTC36 226560_at AA576959 230147_at AI378647 Hs.42502 F2RL2 204654_s_at NM_003220 Hs.519880 TFAP2A 236534_at W69365 Hs.591473 BNIPL 223551_at AF225513 Hs.486354 PKIB 205792_at NM_003881 Hs.592145 WISP2 237086_at AI693336 Hs.163484 FOXA1 224209_s_at AF019638 Hs.494163 GDA 202291_s_at NM_000900 Hs.365706 MGP 227614_at W81116 Hs.522988 HKDC1 229638_at AI681917 Hs.499205 IRX3 205286_at U85658 Hs.473152 TFAP2C 228481_at BG541187 230560_at N21096 Hs.508958 STXBP6 204931_at NM_003206 Hs.78061 TCF21 209815_at BG054916 Hs.494538 PTCH1 203680_at NM_002736 Hs.433068 PRKAR2B 240192_at AI631850 Hs.669736 FLJ45983 222773_s_at AA554045 Hs.47099 GALNT12 203980_at NM_001442 Hs.391561 FABP4 1553622_a_at NM_152597 Hs.129598 FSIP1 213093_at AI471375 Hs.531704 PRKCA 226978_at AA910945 Hs.103110 PPARA 214243_s_at AL450314 Hs.360940 SERHL2 227376_at AW021102 Hs.21509 GLI3 213506_at BE965369 Hs.154299 F2RL1 204073_s_at NM_013279 Hs.473109 C11orf9 238481_at AW512787 Hs.365706 MGP 205313_at NM_000458 Hs.191144 HNF1B 230163_at AW263087 Hs.388347 LOC143381 203510_at BG170541 Hs.132966 MET 243241_at AW341473 227550_at AW242720 Hs.388347 LOC143381 224458_at BC006115 Hs.655738 C9orf125 1555778_a_at AY140646 Hs.136348 POSTN 204179_at NM_005368 Hs.517586 MB 223122_s_at AF311912 Hs.481022 SFRP2 217276_x_at AL590118 Hs.360940 SERHL2 217284_x_at AL589866 Hs.360940 SERHL2 1556474_a_at AK095698 Hs.653239 FLJ38379 227198_at AW085505 Hs.444414 AFF3 209341_s_at AU153366 Hs.656458 IKBKB 220994_s_at NM_014178 Hs.508958 STXBP6 204667_at NM_004496 Hs.163484 FOXA1 210809_s_at D13665 Hs.136348 POSTN 205476_at NM_004591 Hs.75498 CCL20 227174_at Z98443 Hs.122125 WDR72 229477_at AW272342 Hs.591969 THRSP 223121_s_at AW003584 Hs.481022 SFRP2 203843_at AA906056 Hs.445387 RPS6KA3 206401_s_at J03778 Hs.101174 MAPT 205253_at NM_002585 Hs.654412 PBX1 232286_at AA572675 204014_at NM_001394 Hs.417962 DUSP4 226777_at AA147933 213068_at AI146848 Hs.80552 DPT 214235_at X90579 Hs.695915 CYP3A5P2 229580_at R71596 229150_at AI810764 223437_at N48315 Hs.103110 PPARA 203540_at NM_002055 Hs.514227 GFAP 205103_at NM_006365 Hs.380027 C1orf61 229259_at AL133013 Hs.514227 GFAP 206826_at NM_002677 Hs.571512 PMP2 235127_at AI699994 Hs.571512 PMP2 228170_at AL355743 Hs.56663 OLIG1 231898_x_at AW026426 Hs.654932 SOX2OT 219107_at NM_021948 Hs.516904 BCAN 203724_s_at NM_014961 Hs.595749 RUFY3 223673_at AF332192 Hs.388827 RFX4 209469_at BF939489 Hs.75819 GPM6A 206397_x_at NM_001492 Hs.412355 GDF1 209168_at AW148844 Hs.495710 GPM6B 235118_at AV724769 204471_at NM_002045 Hs.134974 GAP43 210198_s_at BC002665 Hs.1787 PLP1 209197_at AA626780 Hs.32984 SYT11 206190_at NM_005291 Hs.46453 GPR17 213825_at AA757419 Hs.176977 OLIG2 230496_at BE046923 Hs.528335 FAM123A 209072_at M13577 Hs.551713 MBP 209470_s_at D49958 Hs.75819 GPM6A 225491_at AL157452 Hs.502338 SLC1A2 236761_at AI939602 Hs.659164 LHFPL3 209170_s_at AF016004 Hs.495710 GPM6B 209169_at N63576 Hs.495710 GPM6B 204469_at NM_002851 Hs.489824 PTPRZ1 203562_at NM_005103 Hs.224008 FEZ1 229921_at BF196255 Hs.151219 KIF5A 205143_at NM_004386 Hs.169047 NCAN 219415_at NM_020659 Hs.268728 TTYH1 209617_s_at AF035302 Hs.314543 CTNND2 238850_at AW015083 Hs.12827 LOC645323 203526_s_at M74088 Hs.158932 APC 222780_s_at AI870583 Hs.533446 BAALC 226690_at AW451961 Hs.377783 ADCYAP1R1 203151_at AW296788 Hs.194301 MAP1A 212636_at AL031781 Hs.510324 QKI 235465_at N66614 Hs.528335 FAM123A 207323_s_at NM_002385 Hs.551713 MBP 227394_at W94001 Hs.503878 NCAM1 1552754_a_at AA640422 Hs.164578 CADM2 228581_at AW071744 Hs.408960 KCNJ10 229875_at AI363193 Hs.525485 ZDHHC22 39966_at AF059274 Hs.45127 CSPG5 209167_at AI419030 Hs.495710 GPM6B 240433_x_at H39185 1558388_a_at R41806 226281_at BF059512 Hs.234074 DNER 1569872_a_at BC036550 Hs.371980 LOC650392 206408_at NM_015564 Hs.656653 LRRTM2 1561658_at AF086066 213395_at AL022327 Hs.517729 MLC1 244403_at R49501 Hs.126135 CRB1 230272_at AA464844 Hs.12827 LOC645323 221236_s_at NM_030795 Hs.201058 STMN4 1558189_a_at BG819064 Hs.554030 LOC284570 216963_s_at AF279774 Hs.134974 GAP43 218899_s_at NM_024812 Hs.533446 BAALC 210432_s_at AF225986 Hs.435274 SCN3A 209839_at AL136712 Hs.654775 DNM3 223603_at AB026054 Hs.189482 RNF112 213841_at BE223030 227401_at BE856748 Hs.655142 IL17D 213721_at L07335 Hs.518438 SOX2 238003_at AI885128 Hs.652245 HEPN1 213486_at BF435376 Hs.6421 COPG2 212843_at AA126505 Hs.503878 NCAM1 205344_at NM_006574 Hs.45127 CSPG5 210383_at AF225985 Hs.22654 SCN1A 227084_at AW339310 Hs.643454 DTNA 203525_s_at AI375486 Hs.158932 APC 227984_at BE464483 Hs.371980 LOC650392 239230_at AW079166 Hs.57971 HES5 227612_at R20763 Hs.1701 ELAVL3 210066_s_at D63412 Hs.315369 AQP4 221623_at AF229053 Hs.516904 BCAN 229734_at BF507379 Hs.504370 LOC283174 244739_at AI051769 Hs.263671 RDX 230144_at AW294729 Hs.377070 GRIA3 1558795_at AL833240 Hs.709829 LOC728052 230942_at AI147740 Hs.99272 CMTM5 213849_s_at AA974416 Hs.655213 PPP2R2B 211071_s_at BC006471 Hs.75823 MLLT11 226228_at T15657 Hs.315369 AQP4 231430_at AW205640 Hs.448218 FAM181B 209618_at U96136 Hs.314543 CTNND2 222547_at AL561281 Hs.431550 MAP4K4 228038_at AI669815 Hs.518438 SOX2 226623_at AI829726 Hs.499704 PHYHIPL 223536_at AL136559 Hs.21963 PSD2 205320_at NM_005883 Hs.446376 APC2 207093_s_at NM_002544 Hs.113874 OMG 228501_at BF055343 Hs.411308 GALNTL2 229799_s_at AI569787 Hs.503878 NCAM1 205638_at NM_001704 Hs.13261 BAI3 218380_at NM_021730 Hs.104305 NLRP1 205737_at NM_004518 Hs.161851 KCNQ2 211906_s_at AB046400 Hs.123035 SERPINB4 210413_x_at U19557 Hs.123035 SERPINB4 209719_x_at U19556 Hs.227948 SERPINB3 209720_s_at BC005224 Hs.227948 SERPINB3 217272_s_at AJ001698 Hs.241407 SERPINB13 214580_x_at AL569511 Hs.700779 KRT6A 209125_at J00269 Hs.700779 KRT6A 206276_at NM_003695 Hs.415762 LY6D 206400_at NM_002307 Hs.707031 LGALS7 209126_x_at L42612 Hs.709235 KRT6B 211361_s_at AJ001696 Hs.241407 SERPINB13 205064_at NM_003125 Hs.1076 SPRR1B 216258_s_at BE148534 Hs.241407 SERPINB13 216237_s_at AA807529 Hs.517582 MCM5 201820_at NM_000424 Hs.433845 KRT5 209644_x_at U38945 Hs.512599 CDKN2A 203535_at NM_002965 Hs.112405 S100A9 209587_at U70370 Hs.84136 PITX1 202917_s_at NM_002964 Hs.416073 S100A8 204971_at NM_005213 Hs.518198 CSTA 206032_at AI797281 Hs.41690 DSC3 235075_at AI813438 Hs.1925 DSG3 206165_s_at NM_006536 Hs.241551 CLCA2 218990_s_at NM_005416 Hs.139322 SPRR3 1552487_a_at NM_001717 Hs.459153 BNC1 220013_at NM_024794 Hs.156457 ABHD9 209800_at AF061812 Hs.655160 KRT16 214549_x_at NM_005987 Hs.46320 SPRR1A 205349_at NM_002068 Hs.73797 GNA15 219554_at NM_016321 Hs.459284 RHCG 213680_at AI831452 Hs.709235 KRT6B 207039_at NM_000077 Hs.512599 CDKN2A 206156_at NM_005268 Hs.198249 GJB5 206421_s_at NM_003784 Hs.138202 SERPINB7 228575_at AL578102 Hs.61232 IL20RB 210020_x_at M58026 Hs.239600 CALML3 213240_s_at X07695 Hs.654610 KRT4 232082_x_at BF575466 Hs.139322 SPRR3 244107_at AW189097 221854_at AI378979 Hs.497350 PKP1 204952_at NM_014400 Hs.631594 LYPD3 206033_s_at NM_001941 Hs.41690 DSC3 205595_at NM_001944 Hs.1925 DSG3 205916_at NM_002963 Hs.112408 S100A7 1559607_s_at AL703282 Hs.254338 GBP6 206164_at NM_006536 Hs.241551 CLCA2 238603_at AI611973 Hs.710375 LOC254559 206122_at NM_006942 Hs.95582 SOX15 233064_at AL365406 Hs.65750 LOC388494 208502_s_at NM_002653 Hs.84136 PITX1 212657_s_at U65590 Hs.81134 IL1RN 206166_s_at AF043977 Hs.241551 CLCA2 229566_at AA149250 Hs.463652 LOC645638 33322_i_at X57348 Hs.523718 SFN 39249_at AB001325 Hs.234642 AQP3 208153_s_at NM_001447 Hs.591255 FAT2 207121_s_at NM_002748 Hs.411847 MAPK6 33323_r_at X57348 Hs.523718 SFN 201755_at NM_006739 Hs.517582 MCM5 236444_x_at BE785577 Hs.436898 LOC389328 217528_at BF003134 Hs.241551 CLCA2 208539_x_at NM_006945 Hs.505327 SPRR2D 211002_s_at AF230389 Hs.504115 TRIM29 214370_at AW238654 Hs.416073 S100A8 238460_at AI590662 Hs.379821 FAM83A 202504_at NM_012101 Hs.504115 TRIM29 224204_x_at AF231339 Hs.434269 ARNTL2 201202_at NM_002592 Hs.147433 PCNA 209260_at BC000329 Hs.523718 SFN 204614_at NM_002575 Hs.594481 SERPINB2 203747_at NM_004925 Hs.234642 AQP3 239430_at AA195677 Hs.546554 IGFL1 216243_s_at BE563442 Hs.81134 IL1RN 230464_at AI814092 Hs.501561 S1PR5 206008_at NM_000359 Hs.508950 TGM1 220658_s_at NM_020183 Hs.434269 ARNTL2 1559606_at AL703282 Hs.254338 GBP6 204252_at M68520 Hs.19192 CDK2 211063_s_at BC006403 Hs.477693 NCK1 217110_s_at AJ242547 Hs.369646 MUC4 220620_at NM_019060 Hs.110196 CRCT1 205490_x_at BF060667 Hs.522561 GJB3 222892_s_at AI087937 Hs.475502 TMEM40 201528_at BG398414 Hs.461925 RPA1 208712_at M73554 Hs.523852 CCND1 204725_s_at NM_006153 Hs.477693 NCK1 217109_at AJ242547 Hs.369646 MUC4 227897_at N20927 Hs.98643 RAP2B 209932_s_at U90223 Hs.527980 DUT 206430_at NM_001804 Hs.1545 CDX1 209847_at U07969 Hs.591853 CDH17 204272_at NM_006149 Hs.5302 LGALS4 206387_at U51096 Hs.174249 CDX2 206418_at NM_007052 Hs.592227 NOX1 218687_s_at NM_017648 Hs.5940 MUC13 214070_s_at AW006935 Hs.109358 ATP10B 201884_at NM_004363 Hs.709196 CEACAM5 213953_at AI732381 Hs.84905 KRT20 222712_s_at AW451240 Hs.5940 MUC13 205929_at NM_005814 Hs.651244 GPA33 207217_s_at NM_013955 Hs.592227 NOX1 228912_at AI436136 Hs.654595 VIL1 203903_s_at NM_014799 Hs.31720 HEPH 219404_at NM_024526 Hs.485352 EPS8L3 207463_x_at NM_002771 Hs.654513 PRSS3 213421_x_at AW007273 Hs.654513 PRSS3 202831_at NM_002083 Hs.2704 GPX2 206312_at NM_004963 Hs.524278 GUCY2C 205506_at NM_007127 Hs.654595 VIL1 207202_s_at NM_003889 Hs.7303 NR1I2 206000_at NM_005588 Hs.179704 MEP1A 227867_at AA005361 Hs.469134 LOC129293 227676_at AW001287 Hs.61265 FAM3D 238143_at AW001557 Hs.146268 LOC646627 206199_at NM_006890 Hs.74466 CEACAM7 203824_at NM_004616 Hs.170563 TSPAN8 210808_s_at AF166327 Hs.592227 NOX1 226654_at AF147790 Hs.489355 MUC12 214898_x_at AB038783 Hs.489354 MUC3B 225835_at AK025062 Hs.162585 SLC12A2 60474_at AA469071 Hs.472054 FERMT1 238956_at AA502384 230772_at AA639753 207380_x_at NM_013954 Hs.592227 NOX1 218796_at NM_017671 Hs.472054 FERMT1 219756_s_at NM_024921 Hs.267038 POF1B 210302_s_at AF262032 Hs.584852 MAB21L2 240045_at AI694242 206143_at NM_000111 Hs.1650 SLC26A3 235383_at AA552060 Hs.154578 MYO7B 239332_at AW079559 228463_at R99562 Hs.36137 FOXA3 205632_s_at NM_003558 Hs.534371 PIP5K1B 210107_at AF127036 Hs.194659 CLCA1 239595_at AA569032 Hs.2704 GPX2 211883_x_at M76742 Hs.512682 CEACAM1 207850_at NM_002090 Hs.89690 CXCL3 215444_s_at X81006 Hs.493275 TRIM31 211165_x_at D31661 Hs.523329 EPHB2 206698_at NM_021083 Hs.78919 XK 212925_at AA143765 Hs.439180 C19orf21 218704_at NM_017763 Hs.656319 RNF43 201849_at NM_004052 Hs.144873 BNIP3 211848_s_at AF006623 Hs.74466 CEACAM7 1561421_a_at AK057259 229889_at AW137009 Hs.25425 C17orf76 1555383_a_at BC017500 Hs.267038 POF1B 206286_s_at NM_003212 Hs.385870 TDGF1 205043_at NM_000492 Hs.489786 CFTR 229215_at AI393930 Hs.152475 ASCL2 211882_x_at U27331 Hs.631846 FUT6 211657_at M18728 Hs.466814 CEACAM6 227850_x_at AW084544 Hs.415791 CDC42EP5 205983_at NM_004413 Hs.109 DPEP1 201328_at AL575509 Hs.655628 ETS2 206797_at NM_000015 Hs.2 NAT2 222592_s_at AW173691 Hs.11638 ACSL5 203757_s_at BC005008 Hs.466814 CEACAM6 224428_s_at AY029179 Hs.470654 CDCA7 220645_at NM_017678 Hs.179100 FAM55D 232707_at AK025181 Hs.567637 ISX 221241_s_at NM_030766 Hs.210343 BCL2L14 207259_at NM_017928 Hs.389460 C17orf73 207203_s_at AF061056 Hs.7303 NR1I2 231693_at AV655991 Hs.380135 FABP1 212768_s_at AL390736 Hs.508113 OLFM4 211889_x_at D12502 Hs.512682 CEACAM1 204454_at NM_012317 Hs.45231 LDOC1 230788_at BF059748 Hs.519884 GCNT2 223969_s_at AF323084 Hs.307047 RETNLB 205190_at NM_002670 Hs.203637 PLS1 226226_at AI282982 Hs.504301 TMEM45B 209498_at X16354 Hs.512682 CEACAM1 231250_at AI394574 226461_at AA204719 Hs.463350 HOXB9 204623_at NM_003226 Hs.82961 TFF3 221879_at AA886335 Hs.709550 CALML4 201329_s_at NM_005239 Hs.655628 ETS2 218644_at NM_016445 Hs.170473 PLEK2 230323_s_at AW242836 Hs.504301 TMEM45B 229777_at AA863031 Hs.242014 CLRN3 206198_s_at L31792 Hs.74466 CEACAM7 208170_s_at NM_007028 Hs.493275 TRIM31 209211_at AF132818 Hs.508234 KLF5 205932_s_at NM_002448 Hs.424414 MSX1 230943_at AI821669 Hs.98367 SOX17 219993_at NM_022454 Hs.98367 SOX17 213707_s_at NM_005221 Hs.99348 DLX5 242940_x_at AA040332 Hs.249196 DLX6 231063_at AW014518 204086_at NM_006115 Hs.30743 PRAME 241291_at AI922102 205979_at NM_002407 Hs.97644 SCGB2A1 228554_at AL137566 Hs.32405 PGR 218857_s_at NM_025080 Hs.535326 ASRGL1 226424_at AI683754 Hs.584744 CAPS 230882_at AA129217 Hs.34969 FLJ34048 231729_s_at NM_004058 Hs.584744 CAPS 231728_at NM_004058 Hs.584744 CAPS 222764_at AI928342 Hs.535326 ASRGL1 205698_s_at NM_002758 Hs.463978 MAP2K6 203892_at NM_006103 Hs.2719 WFDC2 203221_at AI758763 Hs.197320 TLE1 205899_at NM_003914 Hs.417050 CCNA1 205225_at NM_000125 Hs.208124 ESR1 229095_s_at AI797263 Hs.535619 LIMS3 223786_at AF280086 Hs.655622 CHST6 228195_at BE645119 Hs.389311 MGC13057 1569361_a_at BC028018 Hs.277215 LOC100129098 228377_at AB037805 Hs.446164 KLHL14 231181_at AI683621 204069_at NM_002398 Hs.526754 MEIS1 205358_at NM_000826 Hs.32763 GRIA2 203222_s_at NM_005077 Hs.197320 TLE1 208305_at NM_000926 Hs.32405 PGR 209692_at U71207 Hs.472877 EYA2 221950_at AI478455 Hs.202095 EMX2 219263_at NM_024539 Hs.496542 RNF128 205413_at NM_001584 Hs.289795 MPPED2 229281_at N51682 Hs.657892 NPAS3 229542_at AW590326 Hs.43977 C20orf85 230673_at AV706971 Hs.170128 PKHD1L1 226462_at AW134979 Hs.508958 STXBP6 222281_s_at AW517716 227282_at AB037734 Hs.4993 PCDH19 1553089_a_at NM_080736 Hs.2719 WFDC2 213917_at BE465829 Hs.469728 PAX8 242406_at AI870547 203423_at NM_002899 Hs.529571 RBP1 231077_at AI798832 Hs.534593 C1orf192 230412_at BF196935 Hs.657892 NPAS3 1559477_s_at AL832770 Hs.526754 MEIS1 203961_at AL157398 Hs.5025 NEBL 236085_at AI925136 Hs.55150 CAPSL 222912_at BE207758 Hs.503284 ARRB1 228284_at BE302305 Hs.197320 TLE1 204039_at NM_004364 Hs.699463 CEBPA 203962_s_at NM_006393 Hs.5025 NEBL 240161_s_at AI470220 Hs.669184 CDC20B 204058_at AL049699 Hs.21160 ME1 203571_s_at NM_006829 Hs.642660 C10orf116 211671_s_at U01351 Hs.122926 NR3C1 201865_x_at AI432196 Hs.122926 NR3C1 201787_at NM_001996 Hs.24601 FBLN1 230776_at N59856 Hs.500643 RNF157 206893_at NM_002968 Hs.135787 SALL1 1553179_at NM_133638 Hs.23751 ADAMTS19 204059_s_at NM_002395 Hs.21160 ME1 206022_at NM_000266 Hs.522615 NDP 1561956_at AF085947 240275_at AI936559 Hs.659807 ARMC3 229569_at AW572379 222334_at AW979289 206191_at NM_001248 Hs.441145 ENTPD3 229273_at AU152837 Hs.135787 SALL1 211235_s_at AF258450 Hs.208124 ESR1 209552_at BC001060 Hs.469728 PAX8 202628_s_at NM_000602 Hs.414795 SERPINE1 229096_at AI797263 Hs.535619 LIMS3 221861_at AL157484 219764_at NM_007197 Hs.31664 FZD10 232531_at AL137578 Hs.312592 EMX2OS 216321_s_at X03348 Hs.122926 NR3C1 201866_s_at NM_000176 Hs.122926 NR3C1 236538_at BE219628 Hs.32763 GRIA2 213880_at AL524520 Hs.658889 LGR5 201092_at NM_002893 Hs.495755 RBBP7 220316_at NM_022123 Hs.657892 NPAS3 205906_at NM_001454 Hs.651204 FOXJ1 205382_s_at NM_001928 Hs.155597 CFD 228035_at AA453640 Hs.501833 STK33 238206_at AI089319 Hs.591686 RXFP1 206018_at NM_005249 Hs.695962 FOXG1 205373_at NM_004389 Hs.167368 CTNNA2 203021_at NM_003064 Hs.517070 SLPI 226766_at AB046788 Hs.13305 ROBO2 202965_s_at NM_014289 Hs.496593 CAPN6 219914_at NM_004826 Hs.26880 ECEL1 209871_s_at AB014719 Hs.618112 APBA2 205348_s_at NM_004411 Hs.440364 DYNC1I1 204009_s_at W80678 Hs.505033 KRAS 214135_at BE551219 Hs.655324 CLDN18 214476_at NM_005423 Hs.2979 TFF2 206560_s_at NM_006533 Hs.646364 MIA 206334_at NM_004190 Hs.523130 LIPF 205927_s_at NM_001910 Hs.644082 CTSE 232578_at BG547464 Hs.655324 CLDN18 214352_s_at BF673699 Hs.505033 KRAS 221133_s_at NM_016369 Hs.655324 CLDN18 220191_at NM_019617 Hs.69319 GKN1 221132_at NM_016369 Hs.655324 CLDN18 219508_at NM_004751 Hs.194710 GCNT3 206239_s_at NM_003122 Hs.407856 SPINK1 208126_s_at NM_000772 Hs.511872 CYP2C18 37433_at AF077954 Hs.658013 PIAS2 215103_at AW192911 Hs.511872 CYP2C18 204378_at NM_003657 Hs.400556 BCAS1 233446_at AU145336 Hs.194725 ONECUT2 1559203_s_at BC029545 Hs.505033 KRAS 238689_at BG426455 Hs.256897 GPR110 230271_at BG150301 Hs.194725 ONECUT2 202267_at NM_005562 Hs.591484 LAMC2 239911_at H49805 Hs.194725 ONECUT2 224367_at AF251053 Hs.398989 BEX2 208300_at NM_002842 Hs.179770 PTPRH 224476_s_at BC006219 Hs.447531 MESP1 230158_at AA758751 Hs.533644 DPY19L2 240303_at BG484769 Hs.115838 TMC5 220468_at NM_025047 Hs.287702 ARL14 204713_s_at AA910306 Hs.30054 F5 203819_s_at AU160004 Hs.700696 IGF2BP3 1566764_at AL359055 Hs.598388 7A5 230100_x_at AU147145 Hs.435714 PAK1 219795_at NM_007231 Hs.522109 SLC6A14 202864_s_at NM_003113 Hs.369056 SP100 218468_s_at AF154054 Hs.40098 GREM1 219014_at NM_016619 Hs.546392 PLAC8 204855_at NM_002639 Hs.55279 SERPINB5 202652_at NM_001164 Hs.372840 APBB1 202068_s_at NM_000527 Hs.213289 LDLR 219429_at NM_024306 Hs.461329 FA2H 243409_at AI005407 Hs.533830 FOXL1 206515_at NM_000896 Hs.106242 CYP4F3 204537_s_at NM_004961 Hs.22785 GABRE 229030_at AW242997 Hs.291487 CAPN8 204714_s_at NM_000130 Hs.30054 F5 218469_at NM_013372 Hs.40098 GREM1 210159_s_at AF230386 Hs.493275 TRIM31 231029_at AI740541 Hs.30054 F5 209939_x_at AF005775 Hs.390736 CFLAR 223694_at AF220032 Hs.487412 TRIM7 1556116_s_at AI825808 Hs.482497 TNPO1 205402_x_at NM_002770 Hs.622865 PRSS2 212444_at AA156240 212287_at BF382924 Hs.462732 SUZ12 204678_s_at U90065 Hs.208544 KCNK1 203964_at NM_004688 Hs.54483 NMI 214993_at AF070642 Hs.655761 ASPHD1 216470_x_at AF009664 LOC100134294 219580_s_at NM_024780 Hs.115838 TMC5 210002_at D87811 Hs.514746 GATA6 222904_s_at AW469181 Hs.115838 TMC5 201468_s_at NM_000903 Hs.406515 NQO1 209270_at L25541 Hs.497636 LAMB3 203108_at NM_003979 Hs.631733 GPRC5A 218806_s_at AF118887 Hs.267659 VAV3 206884_s_at NM_003843 Hs.534699 SCEL 205261_at NM_002630 Hs.1867 PGC 224590_at BE644917 Hs.529901 XIST 209310_s_at U25804 Hs.138378 CASP4 227733_at AA928939 Hs.593722 TMEM63C 209368_at AF233336 Hs.212088 EPHX2 210563_x_at U97075 Hs.390736 CFLAR 232151_at AL359055 Hs.598388 7A5 208505_s_at NM_000511 Hs.579928 FUT2 205185_at NM_006846 Hs.331555 SPINK5 236163_at AW136983 Hs.656702 LIX1 230865_at N29837 Hs.656702 LIX1 227426_at AV702692 Hs.709893 SOS1 237810_at AW003929 Hs.533779 CLDN6 208235_x_at NM_021123 Hs.460641 GAGE7 205122_at BF439316 Hs.598100 TMEFF1 206067_s_at NM_024426 Hs.591980 WT1 231192_at AW274018 207739_s_at NM_001472 Hs.658117 GAGE2C 207663_x_at NM_001473 GAGE3 212780_at AA700167 Hs.709893 SOS1 1554460_at BC027866 Hs.308628 ST8SIA4 216953_s_at S75264 Hs.591980 WT1 206179_s_at NM_007030 Hs.481466 TPPP 205177_at NM_003281 Hs.320890 TNNI1 208775_at D89729 Hs.370770 XPO1 209436_at AB018305 Hs.705394 SPON1 206249_at NM_004721 Hs.656069 MAP3K13 229221_at BE467023 Hs.502328 CD44 213294_at AV755522 Hs.131431 EIF2AK2 205901_at NM_006228 Hs.88218 PNOC 206439_at NM_004950 Hs.435680 EPYC 220816_at NM_012152 Hs.674915 LPAR3 210248_at D83175 Hs.72290 WNT7A 213993_at AI885290 Hs.705394 SPON1 206935_at NM_002590 Hs.19492 PCDH8 202097_at NM_005124 Hs.601591 NUP153 215987_at AV654984 Hs.113912 RAPGEF2 212909_at AL567376 Hs.714802 LYPD1 210263_at AF029780 Hs.23735 KCNF1 1562981_at AY034472 Hs.523443 HBB 204437_s_at NM_016725 Hs.73769 FOLR1 214219_x_at BE646618 Hs.95424 MAP4K1 235205_at BF109660 Hs.127286 LOC100128259 215447_at AL080215 Hs.516578 TFPI 213994_s_at AI885290 Hs.705394 SPON1 1559239_s_at AW750026 Hs.232375 ACAT1 207086_x_at NM_001474 Hs.460641 GAGE4 213201_s_at AJ011712 Hs.631558 TNNT1 217558_at BE971373 Hs.282624 CYP2C9 208477_at NM_004976 Hs.552896 KCNC1 233944_at AU147118 1552742_at NM_144633 Hs.475656 KCNH8 211585_at U58852 Hs.171061 NPAT 204836_at NM_000170 Hs.584238 GLDC 218309_at NM_018584 Hs.197922 CAMK2N1 239381_at AU155415 Hs.151254 KLK7 234719_at AK024889 Hs.436367 LAMA3 222242_s_at AF243527 Hs.50915 KLK5 205473_at NM_001692 Hs.64173 ATP6V1B1 207010_at NM_000812 Hs.27283 GABRB1 210446_at M30601 Hs.765 GATA1 204777_s_at NM_002371 Hs.80395 MAL 214598_at AL049977 Hs.162209 CLDN8 203844_at NM_000551 Hs.517792 VHL 222103_at AI434345 Hs.648565 ATF1 222023_at AK022014 Hs.459211 AKAP13 242266_x_at AW973803 235700_at AI581344 Hs.535080 RP13-36C9.3 229163_at N75559 Hs.197922 CAMK2N1 225482_at AL533416 Hs.516802 KIF1A 243489_at BF514098 204456_s_at AW611727 Hs.65029 GAS1 224488_s_at BC006262 Hs.705394 SPON1 216056_at AW851559 Hs.502328 CD44 203876_s_at AI761713 Hs.143751 MMP11 206586_at NM_001841 Hs.73037 CNR2 205778_at NM_005046 Hs.151254 KLK7 214053_at AW772192 Hs.390729 ERBB4 222861_x_at NM_012168 Hs.132753 FBXO2 238698_at AI659225 Hs.495984 CASK 213609_s_at AB023144 Hs.194766 SEZ6L 206023_at NM_006681 Hs.418367 NMU 223467_at AF069506 Hs.25829 RASD1 217133_x_at X06399 Hs.1360 CYP2B6 227318_at AL359605 227952_at AI580142 208198_x_at NM_014512 Hs.661101 KIR2DS1 206803_at NM_024411 Hs.22584 PDYN 238584_at W52934 Hs.591594 IQCA1 224482_s_at BC006240 Hs.406788 RAB11FIP4 211029_x_at BC006245 Hs.87191 FGF18 1553169_at BC019612 Hs.149133 LRRN4 1552575_a_at NM_153344 Hs.485528 C6or141 209757_s_at BC002712 Hs.25960 MYCN 207004_at NM_000657 Hs.150749 BCL2 231489_x_at H12214 216261_at AI151479 Hs.218040 ITGB3 213150_at BF792917 Hs.592166 HOXA10 230835_at W69083 Hs.112457 KRTDAP 204636_at NM_000494 Hs.117938 COL17A1 216918_s_at AL096710 Hs.631992 DST 204455_at NM_001723 Hs.631992 DST 209888_s_at M20643 Hs.187338 MYL1 214599_at NM_005547 Hs.516439 IVL 203872_at NM_001100 Hs.1288 ACTA1 224329_s_at AB049591 Hs.148590 CNFN 208195_at NM_003319 Hs.134602 TTN 209742_s_at AF020768 Hs.75535 MYL2 205951_at NM_005963 Hs.689619 MYH1 204810_s_at NM_001824 Hs.334347 CKM 209351_at BC002690 Hs.654380 KRT14 235272_at AI814274 Hs.433484 SBSN 204734_at NM_002275 Hs.654570 KRT15 213385_at AK026415 Hs.654611 CHN2 204631_at NM_017534 Hs.699445 MYH2 220414_at NM_017422 Hs.180142 CALML5 1556773_at M31157 1564307_a_at AL832750 Hs.620532 A2ML1 219106_s_at NM_006063 Hs.50550 KBTBD10 218689_at NM_022725 Hs.713574 FANCF 219995_s_at NM_024702 Hs.653124 ZNF750 228794_at AA211780 Hs.73680 XIRP2 236119_s_at AA456642 Hs.490253 SPRR2G 205485_at NM_000540 Hs.466664 RYR1 231331_at AI085377 231771_at AI694073 Hs.511757 GJB6 221577_x_at AF003934 Hs.616962 GDF15 206912_at NM_004473 Hs.159234 FOXE1 203861_s_at AU146889 Hs.498178 ACTN2 238657_at T86344 Hs.432503 UBXN10 232202_at AK024927 205444_at NM_004320 Hs.657344 ATP2A1 205820_s_at NM_000040 Hs.73849 APOC3 219465_at NM_001643 Hs.237658 APOA2 1565228_s_at D16931 Hs.418167 ALB 205477_s_at NM_001633 Hs.436911 AMBP 37020_at X56692 Hs.76452 CRP 219466_s_at NM_001643 Hs.237658 APOA2 206287_s_at NM_002218 Hs.709406 ITIH4 206226_at NM_000412 Hs.1498 HRG 205755_at NM_002217 Hs.76716 ITIH3 206177_s_at NM_000045 Hs.440934 ARG1 204987_at NM_002216 Hs.75285 ITIH2 204534_at NM_000638 Hs.2257 VTN 1554491_a_at BC022309 Hs.75599 SERPINC1 205813_s_at NM_000429 Hs.282670 MAT1A 1431_at J02843 Hs.12907 CYP2E1 205754_at NM_000506 Hs.655207 F2 204551_s_at NM_001622 Hs.324746 AHSG 205649_s_at NM_000508 Hs.351593 FGA 205500_at NM_001735 Hs.494997 C5 206651_s_at NM_016413 Hs.512937 CPB2 205216_s_at NM_000042 Hs.445358 APOH 206054_at NM_000893 Hs.77741 KNG1 210013_at BC005395 Hs.426485 HPX 205108_s_at NM_000384 Hs.120759 APOB 204965_at NM_000583 Hs.418497 GC 206292_s_at NM_003167 Hs.515835 SULT2A1 211298_s_at AF116645 Hs.418167 ALB 210929_s_at AF130057 Hs.621361 LOC100131613 210888_s_at AF116713 Hs.420257 ITIH1 207218_at NM_000133 Hs.522798 F9 210327_s_at D13368 Hs.144567 AGXT 209975_at AF182276 Hs.12907 CYP2E1 206727_at K02766 Hs.654443 C9 214465_at NM_000608 Hs.714720 ORM2 206293_at U08024 Hs.515835 SULT2A1 205040_at NM_000607 Hs.522356 ORM1 205576_at NM_000185 Hs.474270 SERPIND1 209978_s_at M74220 Hs.143436 PLG 210798_x_at AB008047 Hs.655645 MASP2 217512_at BG398937 Hs.77741 KNG1 209976_s_at AF182276 Hs.12907 CYP2E1 210215_at AF067864 Hs.544932 TFR2 206130_s_at NM_001181 Hs.654440 ASGR2 205650_s_at NM_021871 Hs.351593 FGA 231678_s_at AV651117 Hs.1219 ADH4 205753_at NM_000567 Hs.76452 CRP 206979_at NM_000066 Hs.391835 C8B 208147_s_at NM_030878 Hs.709188 CYP2C8 209977_at M74220 Hs.143436 PLG 216238_s_at BG545288 Hs.300774 FGB 219803_at NM_014495 Hs.209153 ANGPTL3 209660_at AF162690 Hs.427202 TTR 214421_x_at AV652420 Hs.282624 CYP2C9 223579_s_at AF119905 Hs.120759 APOB 216025_x_at M21940 Hs.282624 CYP2C9 205041_s_at NM_000607 Hs.522356 ORM1 237530_at T77543 240033_at BF447999 Hs.143436 PLG 207200_at NM_000531 Hs.117050 OTC 205302_at NM_000596 Hs.642938 IGFBP1 216661_x_at M15331 Hs.282624 CYP2C9 217073_x_at X02162 Hs.633003 APOA1 206913_at NM_001701 Hs.284712 BAAT 228621_at AA948096 Hs.632436 HFE2 204450_x_at NM_000039 Hs.633003 APOA1 204561_x_at NM_000483 Hs.75615 APOC2 210326_at D13368 Hs.144567 AGXT 208471_at NM_020995 Hs.655361 HPR 204988_at NM_005141 Hs.300774 FGB 219612_s_at NM_000509 Hs.546255 FGG 208367_x_at NM_000776 Hs.654391 CYP3A4 206743_s_at NM_001671 Hs.12056 ASGR1 214063_s_at AI073407 Hs.518267 TF 231398_at AA777852 Hs.485438 SLC22A7 220224_at NM_017545 Hs.193640 HAO1 203400_s_at NM_001063 Hs.518267 TF 214842_s_at M12523 Hs.418167 ALB 207406_at NM_000780 Hs.1644 CYP7A1 205152_at AI003579 Hs.443874 SLC6A1 207392_x_at NM_001076 Hs.150207 UGT2B15 207256_at NM_000242 Hs.499674 MBL2 205719_s_at NM_000277 Hs.643451 PAH 1554459_s_at BC020687 Hs.709217 CFHR3 203179_at NM_000155 Hs.522090 GALT 217564_s_at W80357 Hs.149252 CPS1 210587_at BC005161 Hs.632713 INHBE 216687_x_at U06641 Hs.150207 UGT2B15 208209_s_at NM_000716 Hs.99886 C4BPB 207858_s_at NM_000298 Hs.95990 PKLR 242817_at BE672390 Hs.282244 PGLYRP2 205972_at NM_006841 Hs.76460 SLC38A3 206259_at NM_000312 Hs.224698 PROC 205675_at AI623321 Hs.195799 MTTP 230318_at T62088 Hs.525557 SERPINA1 213800_at X04697 Hs.363396 CFH 215388_s_at X56210 Hs.575869 CFHR1 220017_x_at NM_000771 Hs.282624 CYP2C9 207819_s_at NM_000443 Hs.654403 ABCB4 205982_x_at NM_003018 Hs.1074 SFTPC 211735_x_at BC005913 Hs.1074 SFTPC 214387_x_at AA633841 Hs.1074 SFTPC 37004_at J02761 Hs.512690 SFTPB 38691_s_at J03553 Hs.1074 SFTPC 209810_at J02761 Hs.512690 SFTPB 218835_at NM_006926 Hs.523084 SFTPA2B 223678_s_at M13686 Hs.523084 SFTPA1B 214199_at NM_003019 Hs.253495 SFTPD 223806_s_at AF090386 Hs.714418 NAPSA 228979_at BE218152 Hs.509165 SFTA3 211024_s_at BC006221 Hs.705388 NKX2-1 210068_s_at U63622 Hs.315369 AQP4 244056_at AW293443 Hs.211267 SFTA2 231315_at AI807728 205725_at NM_003357 Hs.523732 SCGB1A1 215454_x_at AI831055 Hs.1074 SFTPC 230378_at AA742697 Hs.62492 SCGB3A1 210906_x_at U34846 Hs.315369 AQP4 205654_at NM_000715 Hs.1012 C4BPA 243818_at T96555 Hs.31562 SFTA1P 226960_at AW471176 Hs.445586 CXCL17 220542_s_at NM_016583 Hs.211092 PLUNC 230319_at AI222435 226067_at AL355392 Hs.65551 C20orf114 1566140_at AK096707 Hs.654864 HOPX 215059_at AA053967 220057_at NM_020411 Hs.112208 XAGE1D 229177_at AI823572 Hs.11782 C16orf89 204124_at AF146796 Hs.479372 SLC34A2 227848_at AI218954 Hs.491242 PEBP4 209616_s_at S73751 Hs.558865 CES1 240242_at BE222843 213695_at L48516 Hs.440967 PON3 232765_x_at AI985918 Hs.447544 LOC146429 217626_at BF508244 Hs.460260 AKR1C2 205819_at NM_006770 Hs.67726 MARCO 213674_x_at AI858004 Hs.510635 IGHG1 202637_s_at AI608725 Hs.707983 ICAM1 234366_x_at AF103591 Hs.449585 IGL@ 1555236_a_at BC042578 Hs.1867 PGC 204424_s_at AL050152 Hs.504908 LMO3 230867_at AI742521 Hs.591282 COL6A6 202638_s_at NM_000201 Hs.707983 ICAM1 210673_x_at D50740 Hs.705388 NKX2-1 215621_s_at BG340670 Hs.510635 IGHG1 215946_x_at AL022324 Hs.567636 IGLL3 219434_at NM_018643 Hs.283022 TREM1 210216_x_at AF084513 Hs.531879 RAD1 1555854_at AA594609 238017_at AI440266 Hs.170673 RDHE2 235568_at BF433657 Hs.709539 C19orf59 204811_s_at NM_006030 Hs.476273 CACNA2D2 217227_x_at X93006 Hs.449585 IGL@ 204460_s_at AF074717 Hs.531879 RAD1 216594_x_at 568290 Hs.460260 AKR1C1 204151_x_at NM_001353 Hs.460260 AKR1C1 228504_at AI828648 211653_x_at M33376 Hs.460260 AKR1C2 209924_at AB000221 Hs.143961 CCL18 234350_at AF127125 Hs.449585 IGLV3-21 1553605_a_at NM_152701 Hs.226568 ABCA13 224342_x_at L14452 Hs.449585 IGL@ 209441_at AY009093 Hs.372688 RHOBTB2 217258_x_at AF043583 Hs.449599 IVD 214651_s_at U41813 Hs.659350 HOXA9 209699_x_at U05598 Hs.460260 AKR1C2 216430_x_at AF043586 Hs.449585 IGL@ 217480_x_at M20812 Hs.449972 LOC339562 217179_x_at X79782 209905_at AI246769 Hs.659350 HOXA9 204081_at NM_006176 Hs.524116 NRGN 205866_at NM_003665 Hs.333383 FCN3 211881_x_at AB014341 Hs.449585 IGLJ3 205623_at NM_000691 Hs.531682 ALDH3A1 32128_at Y13710 Hs.143961 CCL18 216412_x_at AF043584 Hs.449599 IVD 205430_at AL133386 Hs.296648 BMP5 220393_at NM_016571 Hs.149585 GLULD1 217157_x_at AF103530 Hs.449621 IGKC 210096_at J02871 Hs.436317 CYP4B1 1553413_at NM_025011 FLJ13744 215214_at H53689 Hs.449585 IGL@ 203279_at NM_014674 Hs.224616 EDEM1 208168_s_at NM_003465 Hs.201688 CHIT1 232056_at AW470178 Hs.534699 SCEL 227168_at BF475488 Hs.653712 MIAT 203159_at NM_014905 Hs.116448 GLS 204844_at L12468 Hs.435765 ENPEP 204845_s_at NM_001977 Hs.435765 ENPEP 205670_at NM_004861 Hs.17958 GAL3ST1 205674_x_at NM_001680 Hs.413137 FXYD2 205799_s_at M95548 Hs.112916 SLC3A1 206119_at NM_001713 Hs.80756 BHMT 206963_s_at NM_016347 Hs.458287 NAT8B 207298_at NM_006632 Hs.327179 SLC17A3 207429_at NM_003058 Hs.436385 SLC22A2 207434_s_at NM_021603 Hs.413137 FXYD2 210289_at AB013094 Hs.14637 NAT8 214069_at AA865601 Hs.298252 ACSM2B 222071_s_at BE552428 Hs.127648 SLCO4C1 223784_at AF229179 Hs.129614 TMEM27 228780_at AW149422 230184_at AL035834 230554_at AV696234 Hs.298252 ACSM2B 237058_x_at AI802118 Hs.504398 SLC6A13 237328_at AI927063 230920_at BF060736 Hs.61504 LOC284542 220084_at NM_018168 Hs.659706 C14orf105 241914_s_at AA804293 Hs.298252 ACSM2B 219902_at NM_017614 Hs.114172 BHMT2 231790_at AA676742 Hs.655653 DMGDH 223820_at AY007436 Hs.714875 RBP5 219564_at NM_018658 Hs.463985 KCNJ16 230602_at AW025340 Hs.655728 ACMSD 206517_at NM_004062 Hs.513660 CDH16 230309_at BE876610 203157_s_at AB020645 Hs.116448 GLS 222943_at AW235567 Hs.653107 GBA3 235774_at AV699047 Hs.597380 LOC553137 205978_at NM_004795 Hs.524953 KL 231187_at AI206039 Hs.459187 SLC28A1 205380_at NM_002614 Hs.444751 PDZK1 206340_at NM_005123 Hs.282735 NR1H4 228367_at BE551416 Hs.656805 ALPK2 219954_s_at NM_020973 Hs.653107 GBA3 224179_s_at AF230095 Hs.129227 MIOX 222083_at AW024233 Hs.145384 GLYAT 1554375_a_at AF478446 Hs.282735 NR1H4 230432_at AI733124 Hs.597380 LOC553137 220148_at NM_022568 Hs.486520 ALDH8A1 244567_at BG165613 1557921_s_at BC013914 205234_at NM_004696 Hs.351306 SLC16A4 239707_at BF510408 Hs.462418 SLC5A10 206228_at AW769732 Hs.155644 PAX2 237017_s_at T73002 244044_at AV691872 223610_at BC002776 Hs.210870 SEMA5B 229168_at AI690433 Hs.660026 COL23A1 230022_at BF057185 Hs.592064 LOC348174 229229_at AJ292204 Hs.34494 AGXT2 206775_at NM_001081 Hs.166206 CUBN 206065_s_at NM_001385 Hs.443161 DPYS 205532_s_at AU151483 Hs.171054 CDH6 219271_at NM_024572 Hs.468058 GALNT14 222938_x_at AI685421 Hs.486489 ENPP3 239667_at AW000967 Hs.112916 SLC3A1 207052_at NM_012206 Hs.129711 HAVCR1 202950_at NM_001889 Hs.83114 CRYZ 214803_at BF344237 209283_at AF007162 Hs.408767 CRYAB 205893_at NM_014932 Hs.478289 NLGN1 206836_at NM_001044 Hs.406 SLC6A3 203868_s_at NM_001078 Hs.109225 VCAM1 218484_at NM_020142 Hs.75069 NDUFA4L2 225558_at R38084 Hs.434996 GIT2 218353_at NM_025226 Hs.24950 RGS5 206030_at NM_000049 Hs.171142 ASPA 239860_at AI311917 Hs.656046 LOC100130232 240253_at BF508634 228739_at AI139413 Hs.644739 CYS1 205363_at NM_003986 Hs.591996 BBOX1 221009_s_at NM_016109 Hs.9613 ANGPTL4 232737_s_at AL157377 Hs.486489 ENPP3 220233_at NM_024907 Hs.531770 FBXO17 236860_at BF968482 Hs.643466 NPY6R 205710_at NM_004525 Hs.657729 LRP2 219948_x_at NM_024743 Hs.122583 UGT2A3 244472_at AW291482 Hs.576171 LOC388630 203158_s_at AF097493 Hs.116448 GLS 209122_at BC005127 Hs.3416 ADFP 205222_at NM_001966 Hs.429879 EHHADH 243168_at AI916532 214091_s_at AW149846 Hs.386793 GPX3 216733_s_at X86401 Hs.75335 GATM 219121_s_at NM_017697 Hs.487471 RBM35A 237351_at AI732190 230863_at R73030 Hs.657729 LRP2 220502_s_at NM_022444 Hs.489849 SLC13A1 225846_at BF001941 Hs.487471 RBM35A 244723_at BF510430 Hs.656497 LOC100129488 242169_at AA703201 Hs.114172 BHMT2 226498_at AA149648 215244_at AI479306 Hs.646438 DGCR5 220100_at NM_018484 Hs.220844 SLC22A11 207738_s_at NM_013436 Hs.603732 NCKAP1 200765_x_at NM_001903 Hs.534797 CTNNA1 201059_at NM_005231 Hs.596164 CTTN 210844_x_at D14705 Hs.534797 CTNNA1 224813_at AL523820 Hs.143728 WASL 205417_s_at NM_004393 Hs.76111 DAG1 200602_at NM_000484 Hs.434980 APP 205297_s_at NM_000626 Hs.89575 CD79B 200764_s_at AI826881 Hs.534797 CTNNA1 228592_at AW474852 Hs.712553 MS4A1 218311_at NM_003618 Hs.655750 MAP4K3 1555779_a_at M74721 Hs.631567 CD79A 205861_at NM_003121 Hs.437905 SPIB 206255_at NM_001715 Hs.146591 BLK 224861_at AA628423 Hs.269782 GNAQ 202329_at NM_004383 Hs.77793 CSK 235400_at AL560266 Hs.266331 FCRLA 230805_at AA749202 226216_at W84556 Hs.465744 INSR 200606_at NM_004415 Hs.519873 DSP 207069_s_at NM_005585 Hs.153863 SMAD6 223751_x_at AF296673 Hs.120551 TLR10 201286_at Z48199 Hs.224607 SDC1 208820_at AL037339 Hs.395482 PTK2 214953_s_at X06989 Hs.434980 APP 220059_at NM_012108 Hs.435579 STAP1 204192_at NM_001774 Hs.166556 CD37 224891_at AV725666 Hs.220950 FOXO3 209685_s_at M13975 Hs.460355 PRKCB 206398_s_at NM_001770 Hs.652262 CD19 209995_s_at BC003574 Hs.2484 TCL1A 564_at M69013 Hs.650575 GNA11 206687_s_at NM_002831 Hs.63489 PTPN6 214339_s_at AA744529 Hs.95424 MAP4K1 213766_x_at N36926 Hs.650575 GNA11 202615_at BF222895 Hs.269782 GNAQ 204960_at NM_005608 Hs.155975 PTPRCAP 218261_at NM_005498 Hs.18894 AP1M2 227522_at AA209487 Hs.192586 CMBL 209827_s_at NM_004513 Hs.459095 IL16 208731_at AU158062 Hs.369017 RAB2A 208683_at M23254 Hs.350899 CAPN2 227336_at AW576405 Hs.372152 DTX1 210448_s_at U49396 Hs.408615 P2RX5 224862_at BF969428 Hs.269782 GNAQ 204581_at NM_001771 Hs.709215 CD22 205606_at NM_002336 Hs.584775 LRP6 205213_at NM_014716 Hs.337242 CENTB1 206385_s_at NM_020987 Hs.499725 ANK3 212588_at Y00062 Hs.654514 PTPRC 201242_s_at BC000006 Hs.291196 ATP1B1 205049_s_at NM_001783 Hs.631567 CD79A 224499_s_at BC006296 Hs.149342 AICDA 206296_x_at NM_007181 Hs.95424 MAP4K1 212587_s_at AI809341 Hs.654514 PTPRC 223750_s_at AW665250 Hs.120551 TLR10 205267_at NM_006235 Hs.654525 POU2AF1 205809_s_at BE504979 Hs.143728 WASL 230980_x_at AI307713 227030_at BG231773 225745_at AV725248 Hs.584775 LRP6 217422_s_at X52785 Hs.709215 CD22 228494_at AI888150 Hs.21816 PPP1R9A 214679_x_at AL110227 Hs.650575 GNA11 204661_at NM_001803 Hs.276770 CD52 207957_s_at NM_002738 Hs.460355 PRKCB 201428_at NM_001305 Hs.647036 CLDN4 201650_at NM_002276 Hs.654568 KRT19 205544_s_at NM_001877 Hs.445757 CR2 40562_at AF011499 Hs.650575 GNA11 228051_at AI979261 Hs.194408 LOC202451 34210_at N90866 Hs.276770 CD52 211945_s_at BG500301 Hs.713531 ITGB1 228188_at AI860150 Hs.220971 FOSL2 213944_x_at BG236220 Hs.650575 GNA11 209135_at AF289489 Hs.622998 ASPH 204248_at NM_002067 Hs.650575 GNA11 212285_s_at AW008051 Hs.273330 AGRN 204961_s_at NM_000265 Hs.647047 NCF1 201453_x_at NM_005614 Hs.283521 RHEB 205504_at NM_000061 Hs.159494 BTK 228056_s_at AI763426 Hs.636624 NAPSB 204951_at NM_004310 Hs.654594 RHOH 227677_at BF512748 Hs.515247 JAK3 226863_at AI674565 Hs.8379 FAM110C 235503_at BF589787 Hs.591712 ASB5 209990_s_at AF056085 Hs.198612 GABBR2 227397_at AA531086 Hs.300772 TPM2 213573_at AA861608 Hs.532793 KPNB1 239767_at W72323 203660_s_at NM_006031 Hs.474069 PCNT 217077_s_at AF095723 Hs.198612 GABBR2 213574_s_at AA861608 Hs.532793 KPNB1 213803_at BG545463 Hs.532793 KPNB1 241350_at AL533913 Hs.656997 FBXL22 204851_s_at AF040254 Hs.34780 DCX 201957_at AF324888 Hs.444403 PPP1R12B 40665_at M83772 Hs.445350 FMO3 204850_s_at NM_000555 Hs.34780 DCX 210059_s_at BC000433 Hs.178695 MAPK13 201958_s_at NM_002481 Hs.444403 PPP1R12B 202178_at NM_002744 Hs.496255 PRKCZ 216199_s_at AL109942 Hs.390428 MAP3K4 211679_x_at AF095784 Hs.198612 GABBR2 212654_at AL566786 Hs.300772 TPM2 206496_at NM_006894 Hs.445350 FMO3 204083_s_at NM_003289 Hs.300772 TPM2 228737_at AA211909 Hs.26608 TOX2 237206_at AI452798 Hs.567641 MYOCD 204089_x_at NM_006724 Hs.390428 MAP3K4 233499_at AI366175 Hs.479658 LRRC7 214577_at BG164365 Hs.637017 MAP1B 229578_at AA716165 Hs.441737 JPH2 216331_at AK022548 Hs.524484 ITGA7 217946_s_at NM_016402 Hs.515500 SAE1 222548_s_at AL561281 Hs.431550 MAP4K4 228724_at N49237 200931_s_at NM_014000 Hs.643896 VCL 204053_x_at U96180 Hs.500466 PTEN 211711_s_at BC005821 Hs.500466 PTEN 224681_at BG028884 Hs.487341 GNA12 202555_s_at NM_005965 Hs.477375 MYLK 204159_at NM_001262 Hs.525324 CDKN2C 212233_at AL523076 Hs.637017 MAP1B 218510_x_at AI816291 Hs.481704 FAM134B 227183_at AI417267 Hs.519666 LOC728264 201234_at NM_004517 Hs.5158 ILK 219829_at NM_012278 Hs.109999 ITGB1BP2 218181_s_at NM_017792 Hs.431550 MAP4K4 226084_at AA554833 Hs.637017 MAP1B 221671_x_at M63438 Hs.449621 IGKC 224823_at AA526844 Hs.477375 MYLK 244780_at AI800110 Hs.591604 SGPP2 235651_at AV741130 205549_at NM_006198 Hs.80296 PCP4 213596_at AL050391 Hs.138378 CASP4 209663_s_at AF072132 Hs.524484 ITGA7 212764_at AI806174 Hs.124503 ZEB1 204165_at NM_003931 Hs.75850 WASF1 205433_at NM_000055 Hs.420483 BCHE 223708_at AF329838 Hs.662633 C1QTNF4 203951_at NM_001299 Hs.465929 CNN1 209991_x_at AF069755 Hs.198612 GABBR2 211792_s_at U17074 Hs.525324 CDKN2C 227662_at AA541622 Hs.655519 SYNPO2 236029_at AI283093 Hs.98523 FAT3 238575_at AI094626 Hs.318775 OSBPL6 214669_x_at BG485135 Hs.449621 IGKC 208694_at U47077 Hs.491682 PRKDC 203935_at NM_001105 Hs.470316 ACVR1 1553530_a_at NM_033669 Hs.713531 ITGB1 227180_at AW138767 Hs.274256 ELOVL7 210058_at BC000433 Hs.178695 MAPK13 214677_x_at X57812 Hs.449585 IGLJ3 222797_at BF508726 Hs.299315 DPYSL5 202274_at NM_001615 Hs.516105 ACTG2 221651_x_at BC005332 Hs.449621 IGKC 1558828_s_at AL703532 Hs.519666 LOC728264 201058_s_at NM_006097 Hs.504687 MYL9 211430_s_at M87789 Hs.510635 IGHG3 200771_at NM_002293 Hs.609663 LAMC1 222871_at BF791631 Hs.10414 KLHDC8A 204548_at NM_000349 Hs.521535 STAR 220196_at NM_024690 Hs.432676 MUC16 206125_s_at NM_007196 Hs.104570 KLK8 204885_s_at NM_005823 Hs.408488 MSLN 209569_x_at NM_014392 Hs.518595 D4S234E 209570_s_at BC001745 Hs.518595 D4S234E 205624_at NM_001870 Hs.646 CPA3 212063_at BE903880 Hs.502328 CD44 216474_x_at AF206667 Hs.405479 TPSAB1 207134_x_at NM_024164 Hs.405479 TPSB2 205128_x_at NM_000962 Hs.201978 PTGS1 215813_s_at S36219 Hs.201978 PTGS1 207741_x_at NM_003293 Hs.405479 TPSAB1 210084_x_at AF206665 Hs.405479 TPSAB1 217023_x_at AF099143 Hs.405479 TPSB2 204733_at NM_002774 Hs.79361 KLK6 205683_x_at NM_003294 Hs.405479 TPSAB1 219087_at NM_017680 Hs.435655 ASPN 209560_s_at U15979 Hs.533717 DLK1 215382_x_at AF206666 Hs.405479 TPSAB1 212935_at AB002360 Hs.170422 MCF2L 226534_at AI446414 Hs.1048 KITLG 204490_s_at M24915 Hs.502328 CD44 219873_at NM_024027 Hs.32603 COLEC11 229290_at AI692575 Hs.59761 DAPL1 217523_at AV700298 Hs.502328 CD44 209242_at AL042588 Hs.201776 PEG3 229927_at BE222220 Hs.655520 LEMD1 210916_s_at AF098641 Hs.502328 CD44 203632_s_at NM_016235 Hs.148685 GPRC5B 204489_s_at NM_000610 Hs.502328 CD44 227769_at AI703476 203662_s_at NM_003275 Hs.494595 TMOD1 226517_at AL390172 Hs.438993 BCAT1 209291_at AW157094 Hs.519601 ID4 214528_s_at NM_013951 Hs.469728 PAX8 219331_s_at NM_018203 Hs.10414 KLHDC8A 225285_at AK025615 Hs.438993 BCAT1 225809_at AI659927 Hs.105460 DKFZP564O0823 205200_at NM_003278 Hs.476092 CLEC3B 209835_x_at BC004372 Hs.502328 CD44 242468_at AA767317 228360_at BF060747 Hs.357567 LYPD6B 202718_at NM_000597 Hs.438102 IGFBP2 223496_s_at AL136609 Hs.97876 CCDC8 212014_x_at AI493245 Hs.502328 CD44 209794_at AB007871 Hs.654743 SRGAP3 201288_at NM_001175 Hs.504877 ARHGDIB 209243_s_at AF208967 Hs.201776 PEG3 205127_at NM_000962 Hs.201978 PTGS1 207924_x_at NM_013992 Hs.469728 PAX8 223754_at BC005083 Hs.389311 MGC13057 223843_at AB007830 Hs.128856 SCARA3 213523_at AI671049 Hs.244723 CCNE1 205869_at NM_002769 Hs.713534 PRSS1 205912_at NM_000936 Hs.501135 PNLIP 206446_s_at NM_001971 Hs.348395 ELA1 205615_at NM_001868 Hs.2879 CPA1 205971_s_at NM_001906 Hs.610926 CTRB1 214411_x_at AW584011 Hs.632211 CTRB2 206447_at NM_001971 Hs.348395 ELA1 206151_x_at NM_007352 Hs.181289 ELA3B 210246_s_at AF087138 Hs.54470 ABCC8 204035_at NM_003469 Hs.516726 SCG2 231646_at AW473496 Hs.631993 DPCR1 220106_at NM_013389 Hs.567486 NPC1L1 204260_at NM_001819 Hs.516874 CHGB 223913_s_at AB058892 Hs.326728 C19orf30 206915_at NM_002509 Hs.516922 NKX2-2 205513_at NM_001062 Hs.2012 TCN1 211766_s_at BC005989 Hs.423598 PNLIPRP2 205815_at NM_002580 Hs.567312 REG3A 206694_at NM_006229 Hs.73923 PNLIPRP1 204870_s_at NM_002594 Hs.315186 PCSK2 203001_s_at NM_007029 Hs.521651 STMN2 214324_at BF222483 Hs.53985 GP2 205422_s_at NM_004791 Hs.696554 ITGBL1 231993_at AK026784 Hs.696554 ITGBL1 201860_s_at NM_000930 Hs.491582 PLAT 223753_s_at AF312769 Hs.567542 CFC1 205509_at NM_001871 Hs.477891 CPB1 222024_s_at AK022014 Hs.459211 AKAP13 202627_s_at AL574210 Hs.414795 SERPINE1 224396_s_at AF316824 Hs.435655 ASPN 205582_s_at NM_004121 Hs.437156 GGT5 210162_s_at U08015 Hs.534074 NFATC1 204363_at NM_001993 Hs.62192 F3 203000_at BF967657 Hs.521651 STMN2 228608_at N49852 Hs.525146 NALCN 206282_at NM_002500 Hs.574626 NEUROD1 205886_at NM_006507 Hs.4158 REG1B 206681_x_at NM_001502 Hs.53985 GP2 220275_at NM_022034 Hs.647182 CUZD1 241137_at AW338320 Hs.631993 DPCR1 205844_at NM_004666 Hs.12114 VNN1 209752_at AF172331 Hs.49407 REG1A 205941_s_at AI376003 Hs.520339 COL10A1 208473_s_at NM_016295 Hs.53985 GP2 201109_s_at AV726673 Hs.164226 THBS1 221718_s_at M90360 Hs.459211 AKAP13 231148_at AI806131 Hs.99376 IGFL2 222939_s_at N30257 Hs.591327 SLC16A10 227099_s_at AW276078 Hs.714890 LOC387763 208850_s_at AL558479 Hs.644697 THY1 1558549_s_at BG120535 Hs.12114 VNN1 227566_at AW085558 Hs.504352 HNT 229459_at AV723914 Hs.436854 FAM19A5 219196_at NM_013243 Hs.232618 SCG3 227140_at AI343467 207412_x_at NM_001808 Hs.654361 CELP 222020_s_at AW117456 Hs.504352 HNT 210643_at AF053712 Hs.333791 TNFSF11 204869_at AL031664 Hs.315186 PCSK2 217428_s_at X98568 Hs.520339 COL10A1 229655_at N66656 Hs.436854 FAM19A5 205266_at NM_002309 Hs.2250 LIF 216840_s_at AK026829 Hs.200841 LAMA2 207181_s_at NM_001227 Hs.9216 CASP7 241450_at AI224952 Hs.135015 RSPO1 201436_at AI742789 Hs.249718 EIF4E 201437_s_at NM_001968 Hs.249718 EIF4E 207058_s_at NM_004562 Hs.132954 PARK2 204171_at NM_003161 Hs.463642 RPS6KB1 32625_at X15357 Hs.490330 NPR1 238815_at BF529195 Hs.591580 LRRTM1 1555520_at BC043542 Hs.494538 PTCH1 205189_s_at NM_000136 Hs.494529 FANCC 236773_at AI635931 229147_at AW070877 226675_s_at W80468 Hs.642877 MALAT1 213143_at BE856707 Hs.526596 C2orf72 214448_x_at NM_002503 Hs.9731 NFKBIB 232318_s_at AI680459 Hs.201441 LOC121838 216623_x_at AK025084 Hs.460789 TOX3 225859_at N30645 Hs.356076 XIAP 1557651_x_at AK096127 Hs.632380 GALE 237736_at AI569844 206002_at NM_005756 Hs.146978 GPR64 231259_s_at BE467688 Hs.376071 CCND2 1565868_at W96225 Hs.502328 CD44 219190_s_at NM_017629 Hs.471492 EIF2C4 216942_s_at D28586 Hs.34341 CD58 201016_at BE542684 Hs.522590 EIF1AX 217299_s_at AK001017 Hs.492208 NBN 221530_s_at BE857425 Hs.177841 BHLHB3 215574_at AU144294 223634_at AF279143 Hs.474711 RASD2 210688_s_at BC000185 Hs.503043 CPT1A 207827_x_at L36675 Hs.271771 SNCA 202523_s_at AI952009 Hs.523009 SPOCK2 201435_s_at AW268640 Hs.249718 EIF4E 201128_s_at NM_001096 Hs.387567 ACLY 209799_at AF100763 Hs.43322 PRKAA1 211960_s_at BG261416 Hs.15738 RAB7A 227556_at AI094580 Hs.706952 NME7 214590_s_at AL545760 Hs.129683 UBE2D1 1552378_s_at NM_172037 Hs.244940 RDH10 204579_at NM_002011 Hs.165950 FGFR4 225609_at AI888037 Hs.271510 GSR 1558775_s_at AU142380 Hs.372000 NSMAF 1559459_at BC043571 Hs.309149 LOC613266 218625_at NM_016588 Hs.103291 NRN1 201019_s_at NM_001412 Hs.522590 EIF1AX 201585_s_at BG035151 Hs.355934 SFPQ 207414_s_at NM_002570 Hs.498494 PCSK6 214147_at AL046350 Hs.709710 C1orf175 224935_at BG165815 Hs.539684 EIF2S3 238699_s_at AI659225 Hs.495984 CASK 229540_at R45471 Hs.479396 RBPJ 204859_s_at NM_013229 Hs.708112 APAF1 205770_at NM_000637 Hs.271510 GSR 219591_at NM_016564 Hs.22140 CEND1 206106_at AL022328 Hs.432642 MAPK12 202618_s_at L37298 Hs.200716 MECP2 241314_at AI732874 202850_at NM_002858 Hs.700576 ABCD3 202528_at NM_000403 Hs.632380 GALE 202409_at X07868 Hs.523414 IGF2 228969_at AI922323 Hs.530009 AGR2 209074_s_at AL050264 Hs.506357 FAM107A 207300_s_at NM_000131 Hs.36989 F7 206536_s_at U32974 Hs.356076 XIAP 215530_at BG484069 Hs.567267 FANCA 204393_s_at NM_001099 Hs.433060 ACPP 204582_s_at NM_001648 Hs.171995 KLK3 204583_x_at U17040 Hs.171995 KLK3 209706_at AF247704 Hs.55999 NKX3-1 209854_s_at AA595465 Hs.515560 KLK2 209855_s_at AF188747 Hs.515560 KLK2 210339_s_at BC005196 Hs.515560 KLK2 239990_at AI821426 237077_at AI821895 243483_at AI272941 Hs.366053 TRPM8 216920_s_at M27331 Hs.534032 TARP 215806_x_at M13231 Hs.534032 TRGC2 211144_x_at M30894 Hs.534032 TARP 207430_s_at NM_002443 Hs.255462 MSMB 210297_s_at U22178 Hs.255462 MSMB 209813_x_at M16768 Hs.534032 TRGV9 206001_at NM_000905 Hs.1832 NPY 223557_s_at AB017269 Hs.144513 TMEFF2 235445_at BF965166 236121_at AI805082 Hs.501758 OR51E2 202429_s_at AL353950 Hs.435512 PPP3CA 230105_at BF062550 Hs.66731 HOXB13 221424_s_at NM_030774 Hs.501758 OR51E2 231711_at BF592752 Hs.433060 ACPP 202457_s_at AA911231 Hs.435512 PPP3CA 209844_at U57052 Hs.66731 HOXB13 33767_at X15306 Hs.198760 NEFH 242649_x_at AI928428 Hs.574240 C15orf21 1561817_at BF681305 232482_at AF311306 Hs.501758 OR51E2 211303_x_at AF261715 Hs.645352 PSMAL 215363_x_at AW168915 Hs.654487 FOLH1 237030_at AI659898 Hs.433060 ACPP 205564_at NM_007003 Hs.441038 PAGE4 236256_at AW993690 220116_at NM_021614 Hs.98280 KCNN2 204412_s_at NM_021076 Hs.198760 NEFH 230784_at BG498699 Hs.116467 C17orf92 230896_at AA833830 Hs.120591 CCDC4 205860_x_at NM_004476 Hs.654487 FOLH1 228796_at BE645967 Hs.199877 CPNE4 206260_at NM_003241 Hs.438265 TGM4 235342_at AI808090 Hs.481133 SPOCK3 207362_at NM_013309 Hs.162989 SLC30A4 203946_s_at U75667 Hs.708024 ARG2 231783_at AI500293 Hs.632119 CHRM1 213920_at AB006631 Hs.124953 CUX2 203180_at NM_000693 Hs.459538 ALDH1A3 205924_at BC005035 Hs.123072 RAB3B 229309_at AI625747 Hs.99913 ADRB1 214087_s_at BF593509 Hs.654589 MYBPC1 206167_s_at NM_001174 Hs.435291 ARHGAP6 231336_at AI703256 Hs.199877 CPNE4 227827_at AW138143 227826_s_at AW138143 221003_s_at NM_030925 Hs.87159 CAB39L 203129_s_at BF059313 Hs.435557 KIF5C 235892_at AI620881 224393_s_at AF307451 Hs.209577 CECR6 227123_at AU156710 Hs.123072 RAB3B 202425_x_at NM_000944 Hs.435512 PPP3CA 230595_at BF677651 Hs.9015 LOC572558 206827_s_at NM_014274 Hs.302740 TRPV6 239202_at BE552383 220723_s_at NM_025087 Hs.479703 FLJ21511 205102_at NM_005656 Hs.439309 TMPRSS2 226553_at AI660243 Hs.439309 TMPRSS2 219775_s_at NM_024695 Hs.187694 CPLX3 206434_at NM_016950 Hs.481133 SPOCK3 210328_at AF101477 Hs.144914 GNMT 211689_s_at AF270487 Hs.439309 TMPRSS2 220724_at NM_025087 Hs.479703 FLJ21511 230577_at AW014022 203130_s_at NM_004522 Hs.435557 KIF5C 205925_s_at NM_002867 Hs.123072 RAB3B 230781_at AI143988 201495_x_at AI889739 Hs.460109 MYH11 231040_at AW512988 1569886_a_at BC040605 Hs.715125 GLB1L3 205833_s_at AI770098 Hs.661347 PART1 201496_x_at 567238 Hs.460109 MYH11 220187_at NM_024636 Hs.521008 STEAP4 37512_at U89281 Hs.524513 HSD17B6 205827_at NM_000729 Hs.458426 CCK 239858_at AI973051 212252_at AA181179 Hs.297343 CAMKK2 202222_s_at NM_001927 Hs.594952 DES 225987_at AA650281 Hs.521008 STEAP4 202363_at AF231124 Hs.643338 SPOCK1 232306_at BG289314 Hs.54973 CDH26 240331_at AI820961 1554547_at BC036453 Hs.607594 FAM13C1 228133_s_at BF732767 Hs.655378 NDE1 238165_at AW665629 Hs.711998 LOC100129282 215432_at AC003034 Hs.306812 ACSM1 210213_s_at AF022229 Hs.654848 EIF6 207457_s_at NM_021246 Hs.591792 LY6G6D 206858_s_at NM_004503 Hs.549040 HOXC6 205767_at NM_001432 Hs.115263 EREG 214142_at AI732905 Hs.632195 ZG16 231341_at BE670584 Hs.369703 SLC35D3 231814_at AK025404 Hs.489355 MUC12 220834_at NM_017716 Hs.272789 MS4A12 211630_s_at L42531 Hs.82327 GSS 211729_x_at BC005902 Hs.488143 BLVRA 203773_x_at NM_000712 Hs.488143 BLVRA 201415_at NM_000178 Hs.82327 GSS 203771_s_at AA740186 Hs.488143 BLVRA 208726_s_at BC000461 Hs.429180 EIF2S2 220056_at NM_021258 Hs.110915 IL22RA1 206149_at NM_022097 Hs.178589 CHP2 225667_s_at AI601101 Hs.260855 FAM84A 215702_s_at W60595 Hs.489786 CFTR 227736_at AA553959 Hs.298713 C10orf99 205239_at NM_001657 Hs.270833 AREG 203116_s_at NM_000140 Hs.365365 FECH 227735_s_at AA553959 Hs.298713 C10orf99 229358_at AA628967 Hs.654504 IHH 203895_at AL535113 Hs.472101 PLCB4 205828_at NM_002422 Hs.375129 MMP3 243669_s_at AA502331 Hs.15951 PRAP1 203649_s_at NM_000300 Hs.466804 PLA2G2A 231439_at AA922936 206268_at NM_020997 Hs.654718 LEFTY1 202762_at AL049383 Hs.591600 ROCK2 1553808_a_at NM_145285 Hs.243272 NKX2-3 204254_s_at NM_000376 Hs.524368 VDR 229481_at AI990367 Hs.592059 NKD1 210133_at D49372 Hs.54460 CCL11 210390_s_at AF031587 Hs.272493 CCL15 235147_at R56118 221204_s_at NM_018058 Hs.500736 CRTAC1 209877_at AF010126 Hs.349470 SNCG 204612_at NM_006823 Hs.433700 PKIA 215729_s_at BE542323 Hs.496843 VGLL1 203031_s_at NM_000375 Hs.501376 UROS 40560_at U28049 Hs.705451 TBX2 209156_s_at AY029208 Hs.420269 COL6A2 208451_s_at NM_000592 Hs.534847 C4B 218692_at NM_017786 Hs.390738 GOLSYN 219736_at NM_018700 Hs.519514 TRIM36 218532_s_at NM_019000 Hs.481704 FAM134B 205630_at NM_000756 Hs.75294 CRH 219355_at NM_018015 Hs.274267 CXorf57 205487_s_at NM_016267 Hs.496843 VGLL1 1554592_a_at BC028721 Hs.515217 SLC1A6 212624_s_at BF339445 Hs.654534 CHN1 213417_at AW173045 Hs.705451 TBX2 202357_s_at NM_001710 Hs.69771 CFB 204103_at NM_002984 Hs.75703 CCL4 202604_x_at NM_001110 Hs.578508 ADAM10 231579_s_at BE968786 Hs.633514 TIMP2 202411_at NM_005532 Hs.532634 IFI27 224560_at BF107565 Hs.633514 TIMP2 238452_at AI393356 Hs.517422 FCRLB 226930_at AI345957 Hs.520525 FNDC1 203913_s_at AL574184 Hs.655491 HPGD 203167_at NM_003255 Hs.633514 TIMP2 202844_s_at AW025261 Hs.528993 RALBP1 241382_at W22165 Hs.433150 PCP4L1 204465_s_at NM_004692 Hs.500916 INA 214895_s_at AU135154 Hs.578508 ADAM10 202410_x_at NM_000612 Hs.523414 IGF2 217165_x_at M10943 Hs.513626 MT1F 226864_at BF245954 Hs.433700 PKIA 204818_at NM_002153 Hs.162795 HSD17B2 243792_x_at AI281371 Hs.436142 PTPN13 1557382_x_at AI659151 Hs.511787 KIAA1975 225093_at N66570 Hs.133135 UTRN 1555497_a_at AY151049 Hs.436317 CYP4B1 244692_at AW025687 Hs.156452 CYP4F22 202765_s_at AI264196 Hs.591133 FBN1 201599_at NM_000274 Hs.523332 OAT 203914_x_at NM_000860 Hs.655491 HPGD 228806_at AI218580 Hs.256022 RORC 211105_s_at U80918 Hs.534074 NFATC1 228232_s_at NM_014312 Hs.112377 VSIG2 223582_at AF055084 Hs.591777 GPR98 211549_s_at U63296 Hs.655491 HPGD 205114_s_at NM_002983 Hs.514107 CCL3 205081_at NM_001311 Hs.70327 CRIP1 217767_at NM_000064 Hs.529053 C3 204201_s_at NM_006264 Hs.436142 PTPN13 210118_s_at M15329 Hs.1722 IL1A 1555349_a_at L78790 Hs.375957 ITGB2 204532_x_at NM_021027 Hs.554822 UGT1A9 206882_at NM_005071 Hs.515217 SLC1A6 211548_s_at J05594 Hs.655491 HPGD 206427_s_at U06654 Hs.154069 MLANA 205337_at AL139318 Hs.301865 DCT 209848_s_at U01874 Hs.95972 SILV 210944_s_at BC003169 Hs.143261 CAPN3 210138_at AF074979 Hs.368733 RGS20 231666_at AA194168 Hs.42146 PAX3 209686_at BC001766 Hs.422181 S100B 204995_at AL567411 Hs.500015 CDK5R1 204466_s_at BG260394 Hs.271771 SNCA 209842_at AI367319 Hs.376984 SOX10 219412_at NM_022337 Hs.591975 RAB38 211546_x_at L36674 Hs.271771 SNCA 214475_x_at AF127764 Hs.143261 CAPN3 236972_at AI351421 Hs.279709 TRIM63 211890_x_at AF127765 Hs.143261 CAPN3 206898_at NM_021153 Hs.42771 CDH19 235639_at AL137939 213693_s_at AI610869 Hs.89603 MUC1 207233_s_at NM_000248 Hs.166017 MITF 204467_s_at NM_000345 Hs.271771 SNCA 206376_at NM_018057 Hs.44424 SLC6A15 213638_at AW054711 Hs.436996 PHACTR1 209843_s_at BC002824 Hs.376984 SOX10 219255_x_at NM_018725 Hs.654970 IL17RB 216059_at U02309 Hs.42146 PAX3 213355_at AI989567 Hs.148716 ST3GAL6 206701_x_at NM_003991 Hs.82002 EDNRB 230741_at AI655467 223741_s_at BC004233 Hs.27935 TTYH2 203348_s_at BF060791 Hs.43697 ETV5 226066_at AL117653 Hs.166017 MITF 207847_s_at NM_002456 Hs.89603 MUC1 218865_at NM_022746 Hs.497816 MOSC1 229245_at AA535361 Hs.253146 PLEKHA6 209514_s_at BE502030 Hs.654978 RAB27A 219274_at NM_012338 Hs.16529 TSPAN12 229599_at AA675917 Hs.390599 LOC440335 202260_s_at NM_003165 Hs.288229 STXBP1 202525_at NM_002773 Hs.75799 PRSS8 204273_at NM_000115 Hs.82002 EDNRB 206696_at NM_000273 Hs.74124 GPR143 227892_at AA855042 Hs.437039 PRKAA2 241966_at N67810 Hs.21213 MYO5A 205597_at NM_025257 Hs.335355 SLC44A4 204955_at NM_006307 Hs.15154 SRPX 210951_x_at AF125393 Hs.654978 RAB27A 207469_s_at NM_003662 Hs.495728 PIR 209442_x_at AL136710 Hs.499725 ANK3 224361_s_at AF250309 Hs.654970 IL17RB 225728_at AI659533 Hs.619806 SORBS2 1557905_s_at AL552534 Hs.502328 CD44 212339_at AL121895 Hs.437422 EPB41L1 206552_s_at NM_003182 Hs.2563 TAC1 231626_at BE220053 1568603_at AI912173 Hs.654933 CADPS 207074_s_at NM_003053 Hs.158322 SLC18A1 214601_at AI350339 Hs.591999 TPH1 229300_at AW590679 214811_at AB002316 Hs.657441 RIMBP2 240236_at N50117 Hs.477315 STXBP5L 205999_x_at AF182273 Hs.654391 CYP3A4 223810_at AF252283 Hs.508201 KLHL1 228598_at AL538781 Hs.591555 DPP10 207529_at NM_021010 Hs.655233 DEFA5 206135_at NM_014682 Hs.655499 ST18 220074_at NM_017717 Hs.165619 MUPCDH 216086_at AB028977 Hs.663229 SV2C 1568604_a_at AI912173 Hs.654933 CADPS 211843_x_at AF315325 Hs.111944 CYP3A7 219643_at NM_018557 Hs.656461 LRP1B 229944_at AU153412 Hs.106795 OPRK1 207814_at NM_001926 Hs.711 DEFA6 206664_at NM_001041 Hs.429596 SI 215045_at BC004145 Hs.26047 TNRC4 219896_at NM_015722 Hs.148680 CALY 206773_at NM_002347 Hs.159590 LY6H 209462_at U48437 Hs.74565 APLP1 239884_at BE467579 Hs.654933 CADPS 233950_at AK000873 Hs.654933 CADPS 242660_at AA846789 Hs.662505 LOC100128641 200697_at NM_000188 Hs.657990 HK1 207544_s_at NM_000672 Hs.586161 ADH6 243339_at AI796076 232321_at AK026404 Hs.271819 MUC17 244170_at H05254 205825_at NM_000439 Hs.78977 PCSK1 1556641_at AK094547 Hs.596660 SLC7A14 213438_at AA995925 Hs.13349 NFASC 243231_at N62096 Hs.658702 SLC38A11 220639_at NM_024795 Hs.156652 TM4SF20 230075_at AV724323 Hs.632832 RAB39B 206484_s_at NM_003399 Hs.170499 XPNPEP2 211357_s_at BC005314 Hs.530274 ALDOB 228329_at AA700440 Hs.477370 DAB1 230112_at AB037820 Hs.170388 39876 230220_at AI681025 Hs.438914 C2orf21 239270_at AL133721 Hs.145404 PLCXD3 206502_s_at NM_002196 Hs.89584 INSM1 207558_s_at NM_000325 Hs.643588 PITX2 214157_at AA401492 Hs.125898 GNAS 225016_at N48299 Hs.293274 APCDD1 219532_at NM_022726 Hs.101915 ELOVL4 224355_s_at AF237905 Hs.150878 MS4A8B 204874_x_at NM_003933 Hs.458427 BAIAP3 205969_at NM_001086 Hs.506908 AADAC 239805_at AW136060 Hs.102307 SLC13A2 1557146_a_at T03074 Hs.711586 FLJ32252 203779_s_at NM_005797 Hs.116651 MPZL2 206975_at NM_000595 Hs.36 LTA 202508_s_at NM_003081 Hs.167317 SNAP25 205626_s_at NM_004929 Hs.65425 CALB1 219659_at AU146927 Hs.444957 ATP8A2 211483_x_at AF081924 Hs.351887 CAMK2B 229818_at AL359592 Hs.4221 SVOP 203029_s_at NM_002847 Hs.490789 PTPRN2 205390_s_at NM_000037 Hs.654438 ANK1 232165_at AL137725 Hs.200412 EPPK1 203397_s_at BF063271 Hs.170986 GALNT3 206157_at NM_002852 Hs.591286 PTX3 232164_s_at AL137725 Hs.200412 EPPK1 202005_at NM_021978 Hs.504315 ST14 203453_at NM_001038 Hs.591047 SCNN1A 213947_s_at AI867102 Hs.475525 NUP210 225645_at AI763378 Hs.653859 EHF 204038_s_at NM_001401 Hs.126667 LPAR1 223232_s_at AI768894 Hs.591464 CGN 235548_at BG326592 Hs.119286 APCDD1L 211974_x_at AL513759 Hs.479396 RBPJ 210105_s_at M14333 Hs.390567 FYN 35617_at U29725 Hs.150136 MAPK7 226535_at AK026736 Hs.470399 ITGB6 204036_at AW269335 Hs.126667 LPAR1 220392_at NM_022659 Hs.710674 EBF2 226342_at AW593244 Hs.503178 SPTBN1 229800_at AI129626 Hs.507755 DCLK1 220035_at NM_024923 Hs.475525 NUP210 205780_at NM_001197 Hs.475055 BIK 226096_at AI760132 Hs.524234 FNDC5 201209_at NM_004964 Hs.88556 HDAC1 212486_s_at N20923 Hs.390567 FYN 219630_at NM_005764 Hs.431099 PDZK1|P1 209114_at AF133425 Hs.38972 TSPAN1 1553589_a_at NM_005764 Hs.431099 PDZK1|P1 230438_at AI039005 Hs.146196 TBX15 209012_at AV718192 Hs.130031 TRIO 224793_s_at AA604375 Hs.494622 TGFBR1 204503_at NM_001988 Hs.500635 EVPL 203851_at NM_002178 Hs.274313 IGFBP6 222675_s_at AA628400 Hs.656063 BAIAP2L1 223423_at BC000181 Hs.231320 GPR160 238567_at AW779536 Hs.591604 SGPP2 223631_s_at AF213678 Hs.631544 C19orf33 218221_at AL042842 Hs.632446 ARNT 202489_s_at BC005238 Hs.301350 FXYD3 236361_at BF432376 Hs.411308 GALNTL2 210135_s_at AF022654 Hs.55967 SHOX2 207316_at NM_001523 Hs.57697 HAS1 202286_s_at J04152 Hs.23582 TACSTD2 219388_at NM_024915 Hs.661088 GRHL2 206680_at NM_005894 Hs.134035 CD5L 206380_s_at NM_002621 Hs.53155 CFP 214074_s_at BG475299 Hs.596164 CTTN 221239_s_at NM_030764 Hs.437393 FCRL2 205033_s_at NM_004084 Hs.380781 DEFA1 228518_at AW575313 Hs.510635 IGHG1 209061_at AI761748 Hs.592142 NCOA3 206210_s_at NM_000078 Hs.89538 CETP 202880_s_at NM_004762 Hs.191215 CYTH1 207655_s_at NM_013314 Hs.665244 BLNK 226068_at BF593625 Hs.371720 SYK 223049_at AF246238 Hs.444356 GRB2 203394_s_at BE973687 Hs.250666 HES1 201465_s_at BC002646 Hs.714791 JUN 202625_at AI356412 Hs.699154 LYN 231856_at AB033070 Hs.656215 KIAA1244 201841_s_at NM_001540 Hs.520973 HSPB1 209154_at AF234997 Hs.12956 TAX1BP3 210010_s_at U25147 Hs.111024 SLC25A1 1554600_s_at BC033088 Hs.594444 LMNA 204259_at NM_002423 Hs.2256 MMP7 218804_at NM_018043 Hs.503074 ANO1 208799_at BC004146 Hs.422990 PSMB5 202626_s_at NM_002350 Hs.699154 LYN 244023_at AW467357 Hs.371720 SYK 226189_at BF513121 Hs.592171 ITGB8 227817_at R51324 Hs.460355 PRKCB 203411_s_at NM_005572 Hs.594444 LMNA 212992_at AI935123 Hs.441783 AHNAK2 211896_s_at AF138302 Hs.706262 DCN 215464_s_at AK001327 Hs.12956 TAX1BP3 215807_s_at AV693216 Hs.476209 PLXNB1 1560225_at AI434253 Hs.75110 CNR1 215075_s_at L29511 Hs.444356 GRB2 36711_at AL021977 Hs.517617 MAFF 210754_s_at M79321 Hs.699154 LYN 209856_x_at U31089 Hs.471156 ABI2 222920_s_at BG231515 Hs.33187 KIAA0748 201903_at NM_003365 Hs.119251 UQCRC1 242785_at BF663308 Hs.656692 FLJ42562 221602_s_at AF057557 Hs.58831 FAIM3 207238_s_at NM_002838 Hs.654514 PTPRC 221571_at AI721219 Hs.510528 TRAF3 213265_at AI570199 Hs.601055 PGA3 235591_at R62424 Hs.248160 SSTR1 205517_at AV700724 Hs.243987 GATA4 209301_at M36532 Hs.155097 CA2 206561_s_at NM_020299 Hs.116724 AKR1B10 232352_at AK001022 Hs.444677 ISL2 220421_at NM_024850 Hs.189109 BTNL8 225330_at AL044092 Hs.643120 IGF1R 214510_at NM_005293 Hs.188859 GPR20 202949_s_at NM_001450 Hs.443687 FHL2 206262_at NM_000669 Hs.654537 ADH1C 203438_at AI435828 Hs.233160 STC2 214133_at AI611214 LOC100133432 226907_at N32557 Hs.486798 PPP1R14C 209950_s_at BC004300 Hs.103665 VILL 205009_at NM_003225 Hs.162807 TFF1 214164_x_at BF752277 Hs.210995 CA12 203627_at AI830698 Hs.643120 IGF1R 207522_s_at NM_005173 Hs.513870 ATP2A3 227156_at AK025872 Hs.495984 CASK 227048_at AI990816 Hs.270364 LAMA1 205343_at NM_001056 Hs.436123 SULT1C2 214014_at W81196 Hs.343380 CDC42EP2 236264_at BF511741 Hs.28391 LPHN3 210735_s_at BC000278 Hs.210995 CA12 205842_s_at AF001362 Hs.656213 JAK2 213036_x_at Y15724 Hs.513870 ATP2A3 207139_at NM_000704 Hs.36992 ATP4A 208250_s_at NM_004406 Hs.279611 DMBT1 230135_at AI822137 1557545_s_at BF529886 Hs.501114 RNF165 237466_s_at AW444502 Hs.507991 HHIP 212816_s_at BE613178 Hs.533013 CBS 204508_s_at BC001012 Hs.210995 CA12 229160_at AI967987 Hs.592221 MUM1L1 209875_s_at M83248 Hs.313 SPP1 206242_at NM_003963 Hs.184194 TM4SF5 230923_at AI824004 Hs.655061 FAM19A1 1558796_a_at AL833240 Hs.709829 LOC728052 203628_at H05812 Hs.643120 IGF1R 223877_at AF329839 Hs.153714 C1QTNF7 212713_at R72286 Hs.296049 MFAP4 203131_at NM_006206 Hs.74615 PDGFRA 217590_s_at AA502609 Hs.137674 TRPA1 229400_at AW299531 Hs.123070 HOXD10 203963_at NM_001218 Hs.210995 CA12 218880_at N36408 Hs.220971 FOSL2 225958_at AI554106 Hs.305985 PHC1 210993_s_at U54826 Hs.604588 SMAD1 227798_at AU146891 Hs.604588 SMAD1 202514_at AW139131 Hs.292549 DLG1 225144_at AI457436 Hs.471119 BMPR2 203269_at NM_003580 Hs.372000 NSMAF 1861_at U66879 Hs.370254 BAD 211464_x_at U20537 Hs.654616 CASP6 208865_at BG534245 Hs.529862 CSNK1A1 201464_x_at BG491844 Hs.714791 JUN 218338_at NM_004426 Hs.305985 PHC1 210627_s_at BC002804 Hs.516119 GCS1 202704_at AA675892 Hs.709952 TOB1 202484_s_at AF072242 Hs.25674 MBD2 209349_at U63139 Hs.655835 RAD50 225262_at AI670862 Hs.220971 FOSL2 203395_s_at NM_005524 Hs.250666 HES1 209790_s_at BC000305 Hs.654616 CASP6 201466_s_at NM_002228 Hs.714791 JUN 210512_s_at AF022375 Hs.73793 VEGFA 209160_at AB018580 Hs.78183 AKR1C3 202351_at AI093579 Hs.436873 ITGAV 202417_at NM_012289 Hs.465870 KEAP1 233849_s_at AK023014 Hs.592313 ARHGAP5 203581_at BC002438 Hs.296169 RAB4A 215356_at AK023134 Hs.646351 TDRD12 226852_at AB033092 Hs.435413 MTA3 208891_at BC003143 Hs.298654 DUSP6 214119_s_at AI936769 Hs.471933 FKBP1A 203132_at NM_000321 Hs.408528 RB1 213980_s_at AA053830 Hs.208597 CTBP1 217936_at AW044631 Hs.592313 ARHGAP5 225985_at AI935917 Hs.43322 PRKAA1 1552648_a_at NM_003844 Hs.591834 TNFRSF10A 212741_at AA923354 Hs.183109 MAOA 208711_s_at BC000076 Hs.523852 CCND1 232149_s_at BF056507 Hs.372000 NSMAF 1557417_s_at AA844689 Hs.442339 RSPH10B 1556194_a_at BC042959 225757_s_at AU147564 Hs.301478 CLMN 210896_s_at AF306765 Hs.622998 ASPH 202935_s_at AI382146 Hs.707993 SOX9 226048_at N92719 Hs.138211 MAPK8 213724_s_at AI870615 Hs.256667 PDK2 228670_at BF197089 Hs.508835 TEP1 214259_s_at AI144075 Hs.571886 AKR7A2 208724_s_at BC000905 Hs.310645 RAB1A 203673_at NM_003235 Hs.654591 TG 214977_at AK023852 210055_at BE045816 Hs.160411 TSHR 210342_s_at M17755 Hs.467554 TPO 215443_at BE740743 Hs.160411 TSHR 231070_at BF431199 Hs.310225 IYD 228715_at AV725825 Hs.21417 ZCCHC12 213482_at BF593175 Hs.476284 DOCK3 213228_at AK023913 Hs.584830 PDE8B 207144_s_at NM_004143 Hs.40403 CITED1 239006_at AI758950 Hs.354013 SLC26A7 229782_at BE468066 Hs.652568 RMST 207695_s_at NM_001555 Hs.22111 IGSF1 1554789_a_at AB085825 Hs.584830 PDE8B 222325_at AW974812 242344_at AA772920 Hs.303527 GABRB2 1557136_at BG059633 Hs.674423 ATP13A4 219836_at NM_024508 Hs.136912 ZBED2 235460_at AW149670 Hs.708268 SNX22 209824_s_at AB000812 Hs.65734 ARNTL 227238_at W93847 Hs.407152 MUC15 210971_s_at AB000815 Hs.65734 ARNTL 238047_at AA405456 Hs.22905 RP13-102H20.1 219529_at NM_004669 Hs.64746 CLIC3 227241_at R79759 Hs.407152 MUC15 235251_at AW292765 221795_at AI346341 Hs.494312 NTRK2 214680_at BF674712 Hs.494312 NTRK2 1557122_s_at BC036592 Hs.303527 GABRB2 206457_s_at NM_000792 Hs.251415 DIO1 219949_at NM_024512 Hs.657345 LRRC2 1565936_a_at T24091 Hs.504908 LMO3 202219_at NM_005629 Hs.540696 SLC6A8 200832_s_at AB032261 Hs.558396 SCD 222294_s_at AW971415 Hs.654978 RAB27A 228984_at AB037815 Hs.502982 KIAA1394 221796_at AA707199 Hs.494312 NTRK2 210621_s_at M23612 Hs.664080 RASA1 205728_at AL022718 1555404_a_at BC029819 Hs.356664 DUOXA1 235766_x_at AA743462 Hs.654978 RAB27A 221539_at AB044548 Hs.411641 EIF4EBP1 223623_at AF325503 Hs.43125 C2orf40 223572_at AB042554 Hs.476041 HHATL 209292_at AL022726 Hs.519601 ID4 228173_at AA810695 Hs.125898 GNAS 205954_at NM_006917 Hs.26550 RXRG 201587_s_at NM_001569 Hs.522819 IRAK1 219597_s_at NM_017434 Hs.272813 DUOX1 209515_s_at U38654 Hs.654978 RAB27A 231240_at AI038059 Hs.202354 DIO2 230585_at AI632692 219727_at NM_014080 Hs.71377 DUOX2 203413_at NM_006159 Hs.505326 NELL2 213106_at AI769688 Hs.435052 ATP8A1 232424_at AI623202 Hs.99500 PRDM16 208892_s_at BC003143 Hs.298654 DUSP6 209683_at AA243659 Hs.467769 FAM49A 232478_at AU146021 235977_at BF433341 Hs.21380 LONRF2 225911_at AL138410 Hs.518921 NPNT 230276_at AI934342 Hs.467769 FAM49A 230290_at BE674338 Hs.12923 SCUBE3 225433_at AU144104 Hs.592334 GTF2A1 215240_at AI189839 Hs.218040 ITGB3 37986_at M60459 Hs.631624 EPOR 203699_s_at U53506 Hs.202354 DIO2 202788_at NM_004635 Hs.234521 MAPKAPK3 205721_at U97145 Hs.441202 GFRA2 228955_at AL041761 225996_at AV709727 Hs.21380 LONRF2 231348_s_at BF508869 Hs.504908 LMO3 225380_at BF528878 Hs.408542 LOC91461 202787_s_at U43784 Hs.234521 MAPKAPK3 222901_s_at AF153815 Hs.463985 KCNJ16 227449_at AI799018 Hs.371218 EPHA4 222830_at BE566136 Hs.418493 GRHL1 208078_s_at NM_030751 Hs.124503 ZEB1 223278_at M86849 Hs.524894 GJB2 204225_at NM_006037 Hs.20516 HDAC4 220751_s_at NM_016348 Hs.519694 C5orf4 212224_at NM_000689 Hs.76392 ALDH1A1 212983_at NM_005343 Hs.37003 HRAS 35846_at M24899 Hs.724 THRA 201116_s_at AI922855 Hs.712551 CPE 205220_at NM_006018 Hs.458425 GPR109B 200863_s_at AI215102 Hs.321541 RAB11A 204420_at BG251266 Hs.283565 FOSL1 208760_at AL031714 Hs.302903 UBE2I 203625_x_at BG105365 Hs.23348 SKP2 236523_at BF435831 Hs.480371 LOC285556 227705_at BF591534 Hs.21861 TCEAL7 209904_at AF020769 Hs.118845 TNNC1 235004_at AI677701 Hs.519904 RBM24 207302_at NM_000231 Hs.37167 SGCG 233364_s_at AK021804 206717_at NM_002472 Hs.700484 MYH8 34471_at M36769 Hs.700484 MYH8 219186_at NM_020224 Hs.591384 ZBTB7A 219728_at NM_006790 Hs.84665 MYOT 217057_s_at AF107846 Hs.125898 GNAS 220359_s_at NM_016300 Hs.475902 ARPP-21 243346_at BF109621 Hs.350621 LMOD3 200604_s_at M18468 Hs.280342 PRKAR1A 232010_at AA129444 Hs.591707 FSTL5 233949_s_at AI160292 Hs.414122 MYH7B 217404_s_at X16468 Hs.408182 COL2A1 204776_at NM_003248 Hs.211426 THBS4 213492_at X06268 Hs.408182 COL2A1 242856_at AI291804 231935_at AL133109 Hs.475902 ARPP-21 212092_at BE858180 Hs.147492 PEG10 235355_at AL037998 206394_at NM_004533 Hs.85937 MYBPC2 206373_at NM_003412 Hs.598590 ZIC1 202688_at NM_003810 Hs.478275 TNFSF10 205817_at NM_005982 Hs.714419 SIX1 205163_at NM_013292 Hs.50889 MYLPF 212688_at BC003393 Hs.239818 PIK3CB 201349_at NM_004252 Hs.711846 SLC9A3R1 235077_at BF956762 Hs.525589 MEG3 211537_x_at AF218074 Hs.714773 MAP3K7 207148_x_at NM_016599 Hs.381047 MYOZ2 218974_at NM_018013 Hs.445244 SOBP 205940_at NM_002470 Hs.440895 MYH3 205388_at NM_003279 Hs.182421 TNNC2 219772_s_at NM_014332 Hs.86492 SMPX 206117_at NM_000366 Hs.133892 TPM1 226913_s_at BF527050 Hs.243678 SOX8 229374_at AI758962 Hs.371218 EPHA4 205676_at NM_000785 Hs.524528 CYP27B1 219894_at NM_019066 Hs.141496 MAGEL2 211536_x_at AB009358 Hs.714773 MAP3K7 205736_at NM_000290 Hs.632642 PGAM2 226554_at AW445134 Hs.591384 ZBTB7A 235927_at BE350122 Hs.370770 XPO1 212558_at BF508662 Hs.436944 SPRY1 226856_at BF793701 Hs.556077 MUSTN1 211793_s_at AF260261 Hs.471156 ABI2 239537_at AW589904 Hs.302341 ST8SIA2 205693_at NM_006757 Hs.73454 TNNT3 222919_at AA192306 Hs.654601 TRDN 209190_s_at AF051782 Hs.529451 DIAPH1 205577_at NM_005609 Hs.154084 PYGM 220260_at NM_018317 Hs.479403 TBC1D19 232955_at AU144397 Hs.611431 FLJ41170 230915_at AI741629 Hs.61684 DHRS7C 231721_at AF356518 Hs.150718 JAM3 207293_s_at U16957 Hs.405348 AGTR2 219804_at NM_024875 Hs.645273 SYNPO2L 210794_s_at AF119863 Hs.525589 MEG3 244839_at AW975934 Hs.134602 TTN 206657_s_at NM_002478 Hs.181768 MYOD1 227823_at BE348679 Hs.512180 RGAG4 212094_at AL582836 Hs.147492 PEG10 202687_s_at U57059 Hs.478275 TNFSF10 205902_at AJ251016 Hs.490765 KCNN3 1559965_at BC037827 1729_at L41690 Hs.460996 TRADD 207066_at NM_002152 Hs.436885 HRC 218824_at NM_018215 Hs.8395 PNMAL1 205900_at NM_006121 Hs.80828 KRT1 207324_s_at NM_004948 Hs.567260 DSC1 206642_at NM_001942 Hs.2633 DSG1 220664_at NM_006518 Hs.2421 SPRR2C 207356_at NM_004942 Hs.105924 DEFB4 205724_at NM_000299 Hs.497350 PKP1 215704_at AL356504 Hs.654510 FLG 237732_at AI432195 41469_at L10343 Hs.112341 PI3 230193_at AI479075 Hs.709837 WDR66 203691_at NM_002638 Hs.112341 PI3 1553081_at NM_080869 Hs.352180 WFDC12 239853_at AI279514 Hs.298079 KLC3 231033_at AI819863 241813_at BG252318 Hs.405610 MBD1 205109_s_at NM_015320 Hs.469935 ARHGEF4

TABLE 5 200 genes used in conjunction with clinical variables to predict breast cancer recurrence risk status. P-value is testing the hypothesis if the expression data is predictive of survival over and above the clinical variable covariates. Affymetrix Gene Entrez Probe ID symbol Genbank Gene ID 209856_x_at ABI2 U31089 10152 202502_at ACADM NM_000016 34 210838_s_at ACVRL1 L17075 94 205746_s_at ADAM17 U86755 6868 206807_s_at ADD2 NM_017482 119 212224_at ALDH1A1 NM_000689 216 204174_at ALOX5AP NM_001629 241 201302_at ANXA4 NM_001153 307 205083_at AOX1 NM_001159 316 208074_s_at AP2S1 NM_021575 1175 202120_x_at AP2S1 NM_004069 1175 211047_x_at AP2S1 BC006337 1175 203526_s_at APC M74088 324 214995_s_at APOBEC3F BF508948 200316 /// 60489 213702_x_at ASAH1 AI934569 427 210980_s_at ASAH1 U47674 427 218659_at ASXL2 NM_018263 55252 212672_at ATM U82828 472 217014_s_at AZGP1 AC004522 563 /// 646282 209311_at BCL2L2 D87461 599 209974_s_at BUB3 AF047473 9184 218614_at C12orf35 NM_018169 55196 221434_s_at C14orf156 NM_031210 81892 203830_at C17orf75 NM_022344 64149 209006_s_at C1orf63 AF247168 57035 219288_at C3orf14 NM_020685 57415 220324_at C6orf155 NM_024882 79940 219223_at C9orf7 NM_017586 11094 207243_s_at CALM2 NM_001743 805 214845_s_at CALU AF257659 813 200756_x_at CALU U67280 813 211922_s_at CAT AY028632 847 214710_s_at CCNB1 BE407516 891 215784_at CD1E AA309511 913 211574_s_at CD46 D84105 4179 207319_s_at CDC2L5 NM_003718 8621 218592_s_at CECR5 NM_017829 27440 40020_at CELSR3 AB011536 1951 209508_x_at CFLAR AF005774 8837 210564_x_at CFLAR AF009619 8837 203975_s_at CHAF1A BF000239 10036 204170_s_at CKS2 NM_001827 1164 64486_at CORO1B AI341234 57175 205538_at CORO2A NM_003389 7464 210687_at CPT1A BC000185 1374 214513_s_at CREB1 M34356 1385 204313_s_at CREB1 AA161486 1385 202978_s_at CREBZF AW204564 58487 201200_at CREG1 NM_003851 8804 218924_s_at CTBS NM_004388 1486 205898_at CX3CR1 U20350 1524 219969_at CXorf15 NM_018360 55787 205417_s_at DAG1 NM_004393 1605 201571_s_at DCTD AI656493 1635 219328_at DDX31 NM_022779 64794 221509_at DENR AB014731 8562 202865_at DNAJB12 AI695173 54788 209059_s_at EDF1 AB002282 8721 213614_x_at EEF1A1 BE786672 1915 222314_x_at EGO AW970881 208688_x_at EIF3B U78525 8662 200005_at EIF3D NM_003753 8664 201726_at ELAVL1 BC003376 1994 212087_s_at ERAL1 AL562733 26284 204817_at ESPL1 NM_012291 9700 213007_at FANCI W74442 55215 213008_at FANCI BG403615 55215 209456_s_at FBXW11 AB033281 23291 204767_s_at FEN1 BC000323 2237 208228_s_at FGFR2 M87771 2263 203638_s_at FGFR2 NM_022969 2263 204236_at FLI1 NM_002017 2313 202838_at FUCA1 NM_000147 2517 217370_x_at FUS S75762 2521 207112_s_at GAB1 NM_002039 2549 203725_at GADD45A NM_001924 1647 210872_x_at GAS7 BC001152 8522 208503_s_at GATAD1 NM_021167 57798 219777_at GIMAP6 NM_024711 474344 207387_s_at GK NM_000167 2710 212241_at GRINL1A AI632774 145781 /// 339970 /// 81488 210981_s_at GRK6 AF040751 2870 205436_s_at H2AFX NM_002105 3014 221976_s_at HDGFRP3 AW207448 50810 206313_at HLA-DOA NM_002119 3111 203744_at HMGB3 NM_005342 3149 201277_s_at HNRNPAB NM_004499 3182 213619_at HNRNPH1 AV753392 3187 204785_x_at IFNAR2 NM_000874 3455 212196_at IL6ST AW242916 3572 208930_s_at ILF3 BG032366 3609 217732_s_at ITM2B AF092128 9445 214098_at KIAA1107 AB029030 23285 218755_at KIF20A NM_005733 10112 209680_s_at KIFC1 BC000712 3833 213507_s_at KPNB1 BG249565 3837 34031_i_at KRIT1 U90269 889 205269_at LCP2 AI123251 3937 203713_s_at LLGL2 NM_004524 3993 203276_at LMNB1 NM_005573 4001 201383_s_at LOC100133166 AL044170 4077 /// 727732 208633_s_at MACF1 W61052 23499 203266_s_at MAP2K4 NM_003010 6416 207292_s_at MAPK7 NM_002749 5598 208403_x_at MAX NM_002382 4149 212023_s_at MKI67 AU147044 4288 220526_s_at MRPL20 NM_017971 55052 212093_s_at MTUS1 AI695017 57509 214753_at N4BP2L2 AW084068 10443 221242_at NM_025051 217591_at BF725121 6498 205732_s_at NCOA2 NM_006540 10499 219961_s_at NCRNA00153 NM_018474 55857 203606_at NDUFS6 NM_004553 4726 218318_s_at NLK NM_016231 51701 209750_at NR1D2 N32859 9975 211671_s_at NR3C1 U01351 2908 201865_x_at NR3C1 AI432196 2908 212181_s_at NUDT4 AF191654 11163 218039_at NUSAP1 NM_016359 51203 219582_at OGFRL1 NM_024576 79627 205233_s_at PAFAH2 NM_000437 5051 209431_s_at PATZ1 AF254083 23598 211807_x_at PCDHGB5 AF152521 56101 212094_at PEG10 AL582836 23089 215832_x_at PICALM AV722190 8301 203134_at PICALM NM_007166 8301 201115_at POLD2 NM_006230 5425 217806_s_at POLDIP2 NM_015584 26073 209302_at POLR2H U37689 5437 218009_s_at PRC1 NM_003981 9055 201494_at PRCP NM_005040 5547 202545_at PRKCD NM_006254 5580 206445_s_at PRMT1 NM_001536 3276 211921_x_at PTMA AF348514 5757 200772_x_at PTMA BF686442 5757 208549_x_at PTMAP7 NM_016171 441454 /// 442347 /// 442727 207419_s_at RAC2 NM_002872 5880 222077_s_at RACGAP1 AU153848 29127 220338_at RALGPS2 NM_018037 55103 200749_at RAN BF112006 5901 204188_s_at RARG M57707 5916 204178_s_at RBM14 NM_006328 10432 200997_at RBM4 NM_002896 5936 212398_at RDX AI057093 5962 221643_s_at RERE AF016005 473 218194_at REXO2 NM_015523 25996 204402_at RHBDD3 NM_012266 25807 212742_at RNF115 AL530462 27246 220985_s_at RNF170 NM_030954 81790 200717_x_at RPL7 NM_000971 6129 200741_s_at RPS27 NM_001030 6232 221523_s_at RRAGD AL138717 58528 201459_at RUVBL2 NM_006666 10856 202026_at SDHD NM_003002 6392 203123_s_at SLC11A2 AU154469 4891 207057_at SLC16A7 NM_004731 9194 205097_at SLC26A2 AI025519 1836 202667_s_at SLC39A7 NM_006979 7922 213720_s_at SMARCA4 AI831675 6597 208794_s_at SMARCA4 D26156 6597 220368_s_at SMEK1 NM_017936 55671 210465_s_at SNAPC3 U71300 6619 202567_at SNRPD3 NM_004175 6634 201416_at SOX4 BG528420 6659 206748_s_at SPAG9 NM_003971 9043 213441_x_at SPDEF AI745526 25803 212526_at SPG20 AK002207 23111 205542_at STEAP1 NM_012449 26872 212084_at TEX261 AV759552 113419 208700_s_at TKT L12711 7086 202195_s_at TMED5 NM_016040 50999 219074_at TMEM184C NM_018241 55751 200847_s_at TMEM66 NM_016127 51669 209754_s_at TMPO AF113682 7112 201291_s_at TOP2A AU159942 7153 214299_at TOP3A AI676092 7156 214196_s_at TPP1 AA602532 1200 202871_at TRAF4 NM_004295 9618 200990_at TRIM28 NM_005762 10155 204033_at TRIP13 NM_004237 9319 212656_at TSFM AF110399 10102 202835_at TXNL4A BC001046 10907 200684_s_at UBE2L3 AI819709 7332 215533_s_at UBE4B AF091093 10277 201534_s_at UBL3 AF044221 5412 212008_at UBXN4 N29889 23190 209103_s_at UFD1L BC001049 7353 214843_s_at USP33 AK022864 23032 211749_s_at VAMP3 BC005941 9341 212324_s_at VPS13D BF111962 55187 213679_s_at WAC NM_018604 51322 208453_s_at XPNPEP1 NM_006523 7511 213376_at ZBTB1 AI656706 22890 204216_s_at ZC3H14 NM_024824 79882 214670_at ZKSCAN1 AA653300 7586 210282_at ZMYM2 AL136621 7750 213698_at ZMYM6 AI805560 9204 219924_s_at ZMYM6 NM_007167 9204 207304_at ZNF45 NM_003425 7596 

1.-43. (canceled)
 44. A system for classifying a tumor biopsy, including: a database populated with reference expression data, the reference expression data including expression levels of a plurality of molecules in a plurality of reference samples, each reference sample having a pre-assigned value for each of one or more clinically significant variables; at least one processor; and at least one storage medium containing program instructions for execution by said processor, said program instructions causing said processor to execute the steps of: accepting input expression data, the input expression data including a test vector of expression levels of the set of marker molecules in the biological test sample; passing the input expression data to one or more analysis programs, the analysis programs including at least one statistical classification program which has been trained to distinguish among said pre-assigned values on the basis of that part of the reference data corresponding to expression levels of the set of marker molecules, wherein the classification program includes a multi-level classifier which classifies the test sample according to anatomical system, then tissue type, then tumor subtype; and assigning one of said pre-assigned values to the test sample for at least one of said clinically significant variables using the statistical classification program, wherein the one or more clinically significant variables is selected from the group including disease state, disease prognosis, and treatment response.
 45. The system according to claim 44, wherein the database is in communication with a server computer which is interconnected to at least one client computer by a data network, said server computer being configured to accept the input expression data from the client computer.
 46. The system according to claim 44, wherein the disease is breast cancer.
 47. The system according to claim 44, wherein the reference expression data are generated using a platform selected from the group including cDNA microarrays, oligonucleotides microarrays, protein microarrays, microRNA (miRNA) arrays, and high-throughput quantitative polymerase chain reaction (qPCR).
 48. The system according to claim 47, wherein each molecule is a polynucleotide represented by multiple probes, each probe having a different nucleotide sequence corresponding to part of the polynucleotide.
 49. The system according to claim 48, wherein one of said analysis programs includes instructions for summarizing the expression levels of the multiple probes into a single expression level for the polynucleotide.
 50. The system according to claim 49, wherein the input expression data are generated using the same platform as the reference expression data. 